A ceramic brick curtain wall connecting structure
By combining fixed and stabilizing frames, the problems of slow construction speed and poor stability of terracotta brick curtain walls are solved, enabling faster and safer connections of terracotta brick curtain walls and enhancing the stability of the brick surface and construction efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANXI ERJIAN GRP CO LTD
- Filing Date
- 2025-06-26
- Publication Date
- 2026-06-23
AI Technical Summary
The existing construction methods for ceramic brick curtain walls are outdated, slow, time-consuming, labor-intensive, have poor brick surface stability, and pose significant safety risks.
The structure combines fixed and stabilizing frames, using grooved clamps and elastic pressure plates to fix the bricks to the connecting frame. Waterproof caulking agent is then used to fill the gaps, forming a stable connection for the ceramic brick curtain wall.
It improves the stability and safety of the terracotta brick curtain wall, reduces construction time and labor requirements, reduces the impact between adjacent brick surfaces, and enhances the stability and safety of the connection.
Smart Images

Figure CN224395852U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of curtain wall connection technology, and in particular relates to a connection structure for ceramic brick curtain walls. Background Technology
[0002] Ceramic brick curtain walls are curtain walls constructed primarily of ceramic bricks. Ceramic bricks are made from natural clay and sintered at high temperatures. They possess advantages such as resistance to high and low temperatures, corrosion resistance, heat and sound insulation, and stable color, making them an energy-saving and environmentally friendly green building material.
[0003] With the development of the construction industry, terracotta brick curtain walls are increasingly being used in various buildings and residences due to their unique texture and decorative effect. However, the existing construction methods mostly involve directly laying terracotta bricks into curtain walls using cement mortar. This method results in poor stability of the brick surface, slow construction speed, large workload, and is time-consuming and labor-intensive. The stability between adjacent bricks is easily affected by each other, leading to significant potential risks to quality and safety in the later stages. Utility Model Content
[0004] The purpose of this utility model is to provide a connection structure for terracotta brick curtain walls, so as to solve the technical problems of outdated construction methods for terracotta brick curtain walls, such as slow speed, time and labor consumption, poor brick surface stability, and high safety risks.
[0005] To achieve the above objectives, the specific technical solution of this utility model is as follows:
[0006] A ceramic brick curtain wall connection structure includes a brick body, with multiple fixing frames arranged around the circumference of the brick body. The side wall of the brick body has grooves corresponding to the fixing frames. The brick body is clamped between the multiple fixing frames through the grooves. A connecting frame is provided on the rear side of the brick body. The rear end of the fixing frame is fixed to the connecting frame. A corresponding stabilizing frame is provided between the brick body and the connecting frame. The rear end of the stabilizing frame is connected to the connecting frame, and the front end abuts against the brick body.
[0007] Furthermore, the fixing frame includes a base plate at the inner end, with screw holes on the base plate. A support plate is provided at the bottom end of the outer side of the base plate, and a vertical plate is provided on the outer side of the support plate. The outer end of the vertical plate is fixedly connected to the bottom end of the inner side of the vertical plate. A horizontally placed V-shaped first elastic pressure plate with an inward opening is provided above the support plate on the inner side of the vertical plate. The bottom surface of the bottom side wall of the first elastic pressure plate is attached to the top surface of the support plate. The length of the top side wall of the first elastic pressure plate is less than that of its bottom side wall. An upwardly protruding claw is provided at its outer end. The claw extends into the corresponding side groove of the corresponding brick. The first elastic pressure plate is made of a metal material with good elasticity.
[0008] Furthermore, a pad is provided above the first elastic pressure plate, and the pad is located above the top side wall of the first elastic pressure plate inside the claw.
[0009] Furthermore, the brick body includes a top cover, an integrally formed base platform on the inner side of the top cover, a hollow inner cavity inside the base platform, an annular groove on the outer end of the outer side wall of the base platform, and multiple pairs of fixing brackets evenly distributed around the perimeter of the brick body.
[0010] Furthermore, the top side of the top cover extends outward along its top surface to form a platform, and the top side of the top cover opposite to the platform is recessed inward to form a groove corresponding to the platform.
[0011] Furthermore, the gaps between the top covers of adjacent bricks are filled with waterproof sealant to form a waterproof layer.
[0012] Furthermore, the stabilizing frame includes a pad plate disposed on the outside of the connecting frame. A second elastic pressure plate is provided on the outside of the pad plate. One end of the second elastic pressure plate is fixedly connected to the pad plate, and the other end extends outward from the pad plate and abuts against the inner wall of the corresponding brick. The second elastic pressure plate is made of a metal material with good elasticity.
[0013] Furthermore, the fixed frame and the stabilizing frame correspond one-to-one, and the bottom end of the pad is fixedly connected to the top end of the fixed frame.
[0014] This utility model of ceramic brick curtain wall connection structure is simple in structure and easy to obtain. Compared with cement mortar, it has less self-weight, is easier to install, has less correlation between adjacent brick surfaces, and the resulting curtain wall has better brick surface stability, is safer and more stable. Moreover, it requires less construction work and is more time-saving and labor-saving. Attached Figure Description
[0015] Figure 1 This is a right-hand longitudinal section view of the present invention after installation;
[0016] Figure 2 This is a cross-sectional bottom view of the present invention after installation;
[0017] Figure 3 This is a half-sectional view of the present invention in its assembled state;
[0018] Figure 4 This is an enlarged view of the unassembled mounting bracket of this utility model;
[0019] The markings in the diagram are as follows: 1. Brick body; 11. Groove; 12. Top cover; 13. Base platform; 14. Platform; 15. Groove; 2. Fixing frame; 21. Base plate; 22. Support plate; 23. First elastic pressure plate; 24. Vertical plate; 25. Claw; 26. Gasket; 3. Stabilizing frame; 31. Pad; 32. Second elastic pressure plate; 4. Connecting frame; 5. Waterproof layer. Detailed Implementation
[0020] To better understand the purpose, structure, and function of this utility model, the following description, in conjunction with the accompanying drawings, provides a more detailed account of a ceramic brick curtain wall connection structure.
[0021] like Figures 1-4 As shown, the ceramic brick curtain wall connection structure of this utility model includes a brick body 1, a fixing frame 2, and a stabilizing frame 3. Multiple fixing frames 2 are arranged circumferentially around the periphery of the brick body 1. The side wall of the brick body 1 has grooves 11 corresponding to the fixing frames 2. The brick body 1 is clamped between the multiple fixing frames 2 through the grooves 11. A connecting frame 4 is provided on the rear side of the fixing frame 2, and the rear end of the fixing frame 2 is fixed to the connecting frame 4. The brick body 1 is secured to the front side of the connecting frame 4 by the multiple fixing frames 2. The stabilizing frame 3 is located between the brick body 1 and the connecting frame 4, with its rear end fixedly connected to the connecting frame 4 and its front end abutting against the brick body 1. The stabilizing frame 3 reduces the probability of the brick body 1 swaying back and forth after installation, making it more stable. The fixing frames 2 and the stabilizing frame 3 cooperate with each other, making the brick body 1 in front of the connecting frame 4 more stable.
[0022] The brick body 1 includes a top cover 12 and a base 13, wherein the top cover 12 is located at the outer end of the base 13, and the two are integrally formed and fixedly connected. The base 13 has a hollow inner cavity, which reduces the weight of the brick body 1 and reduces the probability of the brick body 1 falling off the fixing frame 2 due to its own weight. A groove 11 is provided on the outer wall of the base 13. In this embodiment, an annular groove 11 is provided at the outer end of the outer wall of the base 13. Multiple pairs of fixing frames 2 are evenly distributed around the brick body 1. In this embodiment, two pairs of fixing frames 2 are evenly distributed on the top, bottom, left and right sides of the brick body 1. Each pair of fixing frames 2 is arranged in a mirror image on both sides of the center line. Taking the fixing frame 2 on the lower side of the brick body 1 as an example, it includes a base plate 21, a support plate 22 and a first elastic pressure plate 23. The base plate 21 is located at the inner end of the fixing frame 2 and is parallel to the connecting frame 4. The base plate 21 has screw holes, through which expansion screws can be connected to fix the fixing frame 2. On the connecting frame 4, the support plate 22 is located on the outside of the base plate 21, and its inner end is fixedly connected to the bottom of the outer side of the base plate 21. A vertical plate 24 is located on the outside of the support plate 22, and its outer end is fixedly connected to the bottom of the inner side of the vertical plate 24. The first elastic pressure plate 23 is located above the support plate 22 on the inner side of the vertical plate 24. It is a horizontal V-shape with the opening facing inward. The length of the bottom side wall of the first elastic pressure plate 23 corresponds to that of the support plate 22, and its bottom surface is attached to the top surface of the support plate 22. In this embodiment, the two are fixedly bonded together by corresponding glue. The length of the top side wall of the first elastic pressure plate 23 is less than that of its bottom side wall. Its outer end is provided with an upward protruding claw 25. The claw 25 extends into the lower groove 11 of the brick 1 above it. The fixing frames 2 on the upper and lower sides of the brick 1 cooperate with each other to provide vertical stability. The fixing frames on the left and right sides of the brick 1 cooperate with each other to provide lateral stability.
[0023] Furthermore, the top of the left side of the top cover 12 extends outward along its top surface to form a platform 14, and the top of the right side of the top cover 12 is recessed inward to form a groove 15 corresponding to the platform 14. During installation, the platforms 14 and grooves 15 of the two adjacent bricks 1 overlap each other, reducing the probability of rainwater entering the inside of the bricks 1 and reducing the damage of external impurities to the fixing frame 2 and the stabilizing frame 3.
[0024] Furthermore, a waterproof layer 5 is filled in the gap between the top cover 12 of adjacent bricks 1. The waterproof layer 5 is filled with waterproof sealant, which further reduces the probability of rainwater and other external impurities entering the inside of the brick 1 and improves the service life of the fixing frame 2 and the stabilizing frame 3.
[0025] The stabilizing frame 3 includes a second elastic pressure plate 32 and a pad 31. The pad 31 is located on the outside of the connecting frame 4. The stabilizing frame 3 is fixedly connected to the outer surface of the connecting frame 4 through the pad 31. The pad 26 and the connecting frame 4 can be fixedly connected in various ways, such as welding or using self-tapping screws. The second elastic pressure plate 32 is located on the outside of the pad 31. Its lower inner side is fixedly connected to the pad 31, and its upper end extends outward from the pad 31 and abuts against the inner wall of the brick 1 outside the pad 31. The stabilizing frame 3 provides front-to-back stabilizing force to the brick 1 and the connecting frame 4 through the second elastic pressure plate 32.
[0026] Furthermore, both the first elastic pressure plate 23 and the second elastic pressure plate 32 are made of metal materials with good elasticity, such as spring steel, which can use their good resilience to fix the brick 1 to the front side of the connecting frame 4.
[0027] Furthermore, a pad 26 is provided above the first elastic pressure plate 23. The pad 26 is located above the top side wall of the first elastic pressure plate 23 inside the claw 25. It is made of an elastic material, such as rubber. The pad 26 serves as a buffer between the brick 1 and the fixing frame 2, reducing the stiffness of the direct force between the two and preventing the first elastic pressure plate 23 from exerting too much force on the brick 1, which would damage the brick 1.
[0028] Furthermore, the fixed frame 2 and the stabilizing frame 3 correspond one-to-one. The bottom end of the pad 31 of the stabilizing frame 3 is fixedly connected to the top end of the base plate 21 of the fixed frame 2. In this embodiment, the two are integrally formed and fixedly connected by welding. The two cooperate with each other to make the brick 1 more evenly stressed and less prone to damage.
[0029] When in use, the connecting frame 4 serves as the installation keel for the connecting structure. It can be pre-embedded in the wall of the building, or it can be fixed to the outside of the building by external bolts or other metal connectors. After the connecting frame 4 is installed, the brick 1 can be fixed to the outside of the connecting frame 4 by the cooperation of the fixing frame 2 and the stabilizing frame 3, so that they are arranged in columns, rows or cross-rows.
[0030] The structure of this ceramic brick curtain wall connection is simple, readily available, easy to manufacture and install. Compared with cement mortar, it has a smaller self-weight, better stability of the brick surface of the curtain wall, lower correlation between adjacent brick surfaces, and is safer and more stable. In addition, it requires less work, has a shorter construction period, and saves more labor.
[0031] It is understood that this utility model has been described through some embodiments, and those skilled in the art will recognize that various changes or equivalent substitutions can be made to these features and embodiments without departing from the spirit and scope of this utility model. Furthermore, under the teachings of this utility model, these features and embodiments can be modified to adapt to specific situations and materials without departing from the spirit and scope of this utility model. Therefore, this utility model is not limited to the specific embodiments disclosed herein, and all embodiments falling within the scope of the claims of this application are within the protection scope of this utility model.
Claims
1. A ceramic tile wall connection structure, characterized by, The system includes a brick body (1), with multiple fixing frames (2) arranged around the outer circumference of the brick body (1). The sidewall of the brick body (1) has grooves (11) corresponding to the fixing frames (2). The brick body (1) is clamped between the multiple fixing frames (2) through the grooves (11). A connecting frame (4) is provided on the rear side of the brick body (1), and the rear end of the fixing frame (2) is fixed to the connecting frame (4). A corresponding stabilizing frame (3) is provided between the brick body (1) and the connecting frame (4), with the rear end of the stabilizing frame (3) connected to the connecting frame (4) and its front end abutting against the brick body (1). The fixing frame (2) includes a base plate (21) at its inner end. The plate (21) is provided with screw holes. The bottom of the outer side of the base plate (21) is provided with a support plate (22). The outer side of the support plate (22) is provided with a vertical plate (24). Its outer end is fixedly connected to the bottom of the inner side of the vertical plate (24). The support plate (22) on the inner side of the vertical plate (24) is provided with a horizontally placed V-shaped first elastic pressure plate (23) with an opening facing inward. The bottom surface of the bottom side wall of the first elastic pressure plate (23) is attached to the top surface of the support plate (22). The outer end of the top side wall of the first elastic pressure plate (23) is provided with an upward protruding claw (25). The claw (25) extends into the corresponding side groove (11) of the corresponding brick (1). The brick body (1) includes a top cover (12), an integrally formed base platform (13) is provided on the inner side of the top cover (12), a hollow inner cavity is provided in the base platform (13), an annular groove (11) is provided on the outer side wall of the base platform (13), and multiple pairs of fixing frames (2) are evenly distributed around the brick body (1). The top side of the top cover (12) extends outward along its top surface to form a platform (14), and the top side of the top cover (12) opposite to the platform (14) is recessed inward to form a groove (15) corresponding to the platform (14). The stabilizing frame (3) includes a pad (31) provided on the outside of the connecting frame (4). A second elastic pressure plate (32) is provided on the outside of the pad (26). One end of the second elastic pressure plate (32) is fixedly connected to the pad (31), and its opposite end extends outward from the pad (31) and abuts against the inner wall of the corresponding brick (1).
2. The ceramic brick wall connection structure according to claim 1, wherein A pad (26) is provided above the first elastic pressure plate (23), and the pad (26) is located above the top side wall of the first elastic pressure plate (23) inside the claw (25).
3. The ceramic brick wall connection structure according to claim 1, wherein The fixed frame (2) and the stabilizing frame (3) correspond one-to-one, and the bottom end of the pad (31) is fixedly connected to the top end of the fixed frame (2).