An autoclaved aerated concrete (AAC) panel interior partition wall structure
By combining U-shaped clips with embedded parts and using elastic sealant, the problems of unstable fixing and poor sealing of ALC panel interior partitions were solved, thereby improving the stability, heat insulation, and sound insulation performance of the interior partitions and enhancing the safety and aesthetics of the building.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENYANG ZHONGCHEN STEEL STRUCTURE ENG
- Filing Date
- 2025-07-17
- Publication Date
- 2026-06-30
AI Technical Summary
The existing installation method for ALC panel interior partitions has problems such as insecure fixing and poor sealing at the joints, which affects the stability, heat insulation, sound insulation performance and aesthetics of the interior partitions.
The combination of U-shaped clips and embedded parts is used to enhance the connection stability between the ALC wall panel and the structural beam, and elastic sealant is filled at the joints between adjacent wall panels to improve the sealing performance.
It improves the fixing effect and sealing of ALC wall panels, enhances the stability and thermal and sound insulation performance of interior partitions, prevents leakage, and improves the safety and aesthetics of buildings.
Smart Images

Figure CN224431725U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of interior partition wall construction technology, specifically to an autoclaved aerated concrete (AAC) panel interior partition wall structure. Background Technology
[0002] Autoclaved aerated concrete (ALC) panels are widely used in the construction of interior partition walls due to their excellent properties such as lightweight, thermal insulation, and sound insulation. However, several problems need to be addressed during the assembly and installation of ALC panels for interior partition walls. On the one hand, the fixation of the ALC wall panels themselves is crucial; if the fixation is not secure, it will affect the stability of the entire interior partition wall structure, thereby affecting the overall safety and service life of the building. On the other hand, the construction quality at the joints between adjacent ALC wall panels also directly affects the thermal insulation, sound insulation, and overall aesthetics of the interior partition wall.
[0003] Currently, existing ALC panel interior partition wall installation methods have shortcomings in terms of fixing effect and joint treatment. For example, the fixing method is not stable enough, and problems such as loosening and displacement are likely to occur during subsequent use; the joints are not sealed tightly, which may lead to a decrease in heat insulation and sound insulation performance, or even leakage.
[0004] In view of this, this application provides an autoclaved aerated concrete (AAC) panel internal partition wall structure to solve the above problems and improve the installation quality, stability and performance of AAC panel internal partition walls. Utility Model Content
[0005] To address the aforementioned issues, this utility model provides an autoclaved aerated concrete (AAC) panel internal partition wall structure. This structure, through U-shaped clips and a rational layout, enhances the stability of the connection between the AAC panel and the structural beam, ensuring the stability of the internal partition wall and improving the building's safety and lifespan. The joints between adjacent AAC panel panels are filled with elastic sealant to seal the joints, improving heat and sound insulation, preventing leakage, and offering advantages such as rapid installation, high stability, and cost savings.
[0006] The technical solution of this utility model is as follows:
[0007] An autoclaved aerated concrete (AAC) panel interior partition wall structure includes structural beams, structural piles, and AAC wall panels. Two structural piles are fixedly installed between the upper and lower structural beams, respectively. Several AAC wall panels are sequentially fixedly installed in the square space formed by the structural piles and structural beams. The top and bottom of the AAC wall panels are fixedly connected to the structural beams by U-shaped clips. The U-shaped clips are fixedly installed on the structural beams and have U-shaped cavities that engage with the shape of the top or bottom of the AAC wall panels.
[0008] At least one U-shaped clip is installed between the top and bottom of each ALC wall panel and the structural beam.
[0009] At least two U-shaped clips are respectively installed between the top and bottom of the ALC wall panels at both ends and the structural beams.
[0010] The U-shaped card consists of a horizontal plate and two vertical plates, with the two vertical plates set on both sides of the horizontal plate to form a U-shaped card cavity.
[0011] U-shaped cards are made by bending and forming a single piece.
[0012] The U-shaped clip is fixed to the structural beam by the embedded part, which is embedded in the structural beam, and the U-shaped clip is fixedly connected to the embedded part.
[0013] The embedded part consists of embedded bars and embedded plates. The embedded bars are embedded in the structural beam, and one side of the embedded plate is set outside the structural beam.
[0014] The horizontal plate is connected to the embedded plate by welding or bolting.
[0015] The distance between two embedded parts shall not exceed 600mm.
[0016] The joint between two adjacent ALC wall panels is filled with elastic sealant.
[0017] The beneficial effects of this utility model are as follows:
[0018] 1. This utility model discloses an autoclaved aerated concrete (AAC) panel internal partition wall structure. This structure improves the fixing effect of AAC wall panels. The top and bottom of the AAC wall panels are fixedly connected to the structural beams through U-shaped clips with U-shaped cavities. Each AAC wall panel has at least one U-shaped clip between its top and bottom and the structural beam, and at least two U-shaped clips between the top and bottom of the AAC wall panels at both ends and the structural beams. This enhances the connection stability between the AAC wall panels and the structural beams, prevents the wall panels from loosening or shifting, ensures the stability of the internal partition wall structure, and thus improves the overall safety and service life of the building.
[0019] 2. This utility model discloses an internal partition wall structure for autoclaved aerated concrete (AAC) panels. This internal partition wall structure for AAC panels ensures the structural strength and installation convenience of the U-shaped clamp. The U-shaped clamp is composed of horizontal and vertical plates and is integrally formed by bending, which ensures the structural strength and stability of the U-shaped clamp itself, enabling it to better bear the weight and force of the AAC wall panel. At the same time, the integral molding design simplifies the production process, improves production efficiency, and facilitates on-site installation.
[0020] 3. This utility model discloses an internal partition wall structure for autoclaved aerated concrete (AAC) panels. This internal partition wall structure ensures reliable fixing of U-shaped clips. The U-shaped clips are fixed to the structural beams by embedded parts, which consist of embedded bars and embedded plates. The embedded bars are embedded in the structural beams, and one side of the embedded plate is set outside the structural beams. The horizontal plate of the U-shaped clip is connected to the embedded plate by welding or bolts, making the connection between the U-shaped clips and the structural beams more solid and reliable, able to withstand greater loads, and further enhancing the fixing effect of the AAC wall panels.
[0021] 4. This utility model discloses an autoclaved aerated concrete (AAC) panel internal partition wall structure. This structure improves the performance and aesthetics of the internal partition wall. The joint between two adjacent AAC wall panels is filled with elastic sealant, which effectively seals the joint and prevents air and moisture from penetrating through the joint, thereby improving the heat insulation and sound insulation performance of the internal partition wall and avoiding leakage. At the same time, filling with elastic sealant also makes the wall surface smoother and more beautiful, enhancing the overall visual effect of the internal partition wall. Attached Figure Description
[0022] The advantages and solutions of this application will become clear to those skilled in the art upon reading the following detailed description of preferred embodiments. The accompanying drawings are for illustrative purposes only and are not intended to limit the scope of this invention.
[0023] In the attached diagram:
[0024] Figure 1 This is a schematic diagram of an internal partition wall structure of an autoclaved aerated concrete panel according to an embodiment of the present utility model;
[0025] Figure 2 This is a schematic diagram of the cooperation structure between the U-shaped clip, embedded parts, and structural beams in an autoclaved aerated concrete panel internal partition wall structure according to an embodiment of this utility model.
[0026] Figure 3 This is a schematic diagram of the U-shaped clip and ALC wall panel cooperation structure of an autoclaved aerated concrete (AAC) panel internal partition wall structure according to an embodiment of this utility model.
[0027] Figure 4 This is a front view of a U-shaped card in an embodiment of the autoclaved aerated concrete panel internal partition wall structure of this utility model;
[0028] Figure 5 This is a top view of a U-shaped clip in an embodiment of the autoclaved aerated concrete panel internal partition wall structure of the present invention;
[0029] Figure 6 This is a front view of an embedded part of an autoclaved aerated concrete (AAC) panel internal partition wall structure according to an embodiment of the present invention.
[0030] Figure 7 This is a top view of an embedded part of an autoclaved aerated concrete panel internal partition wall structure according to an embodiment of the present utility model;
[0031] The components represented by the various reference numerals in the diagram are:
[0032] This utility model includes: 1. U-shaped clip, 11. horizontal plate, 12. vertical plate, 2. embedded part, 21. embedded bar, 22. embedded plate, 3. structural beam, 4. structural pile, and 5. ALC wall panel. Detailed Implementation
[0033] like Figure 1 As shown, the internal partition wall structure of the autoclaved aerated concrete (AAC) panel mainly includes structural beams 3, structural piles 4, AAC wall panels 5, U-shaped clips 1, and embedded parts 2. Two structural piles 4 are fixedly installed between the upper and lower structural beams 3 to form a stable frame structure, providing foundation support for the installation of AAC wall panels 5. Several AAC wall panels 5 are sequentially fixedly installed in this square space formed by structural piles 4 and structural beams 3.
[0034] like Figures 2 to 5 As shown, the U-shaped clip 1 consists of a horizontal plate 11 and a vertical plate 12. The two vertical plates 12 are respectively set on both sides of the horizontal plate 11 to form a U-shaped clip cavity that engages with the top or bottom shape of the ALC wall panel 5. The U-shaped clip 1 is integrally formed by bending. The top and bottom of the ALC wall panel 5 are fixedly connected to the structural beam 3 through the U-shaped clip 1. The U-shaped clip 1 is fixedly set on the structural beam 3. At least one U-shaped clip 1 is set between the top and bottom of each ALC wall panel 5 and the structural beam 3. At least two U-shaped clips 1 are set between the top and bottom of the ALC wall panels 5 at both ends and the structural beam 3 to enhance the stability of the end wall panels.
[0035] like Figure 6 and Figure 7 As shown, the U-shaped clip 1 is fixed to the structural beam 3 by embedded parts 2. Embedded parts 2 consist of embedded reinforcing bars 21 and embedded plates 22. The embedded reinforcing bars 21 are embedded in the structural beam 3, and one side of the embedded plate 22 is positioned outside the structural beam 3. A horizontal plate 11 is connected to the embedded plate 22 by welding or bolts, ensuring a firm connection between the U-shaped clip 1 and the structural beam 3. Furthermore, the spacing between the two embedded parts 2 is no greater than 600mm to ensure the uniformity and stability of the U-shaped clip 1 installation.
[0036] Elastic sealant is filled between the joints of two adjacent ALC wall panels 5 to prevent air and moisture penetration and improve the sound insulation, heat insulation and waterproof performance of the wall panels.
[0037] The construction process of this autoclaved aerated concrete (AAC) panel internal partition wall structure is as follows:
[0038] I. Construction Preparation
[0039] Prepare the necessary materials and tools for construction, including structural beams 3, structural piles 4, ALC wall panels 5, U-shaped clips 1, embedded parts 2, bolts, welding equipment, level, elastic sealant, etc.
[0040] II. Installation of Embedded Parts
[0041] During the pouring of the building structure, concrete embedded parts 2 are pre-embedded according to the design requirements. The specific steps are as follows:
[0042] Determine the location of the embedded part 2 according to the design drawings, and ensure that the distance between two adjacent embedded parts 2 is not greater than 600mm.
[0043] The embedded reinforcement bar 21 is accurately placed in the predetermined position and fixed firmly to prevent displacement during concrete pouring.
[0044] During concrete pouring, care should be taken to protect the embedded part 2 to avoid collisions that could cause it to shift position. After the concrete has solidified, check whether the embedded reinforcement 21 of the embedded part 2 is embedded in the structural beam 3 and whether one side of the embedded plate 22 is located outside the structural beam 3, to ensure that the installation quality of the embedded part 2 meets the requirements.
[0045] III. U-shaped clip fixing
[0046] U-shaped clip preparation: Prepare a sufficient number of U-shaped clips 1 according to the design requirements. Check whether the U-shaped cavity of the U-shaped clip 1 matches the top or bottom shape of the ALC wall panel 5 to ensure that the quality of the U-shaped clip 1 is qualified.
[0047] U-shaped clip installation: Connect the U-shaped clip 1 to the embedded plate 22 with bolts, or weld the horizontal plate 11 to the embedded plate 22 securely using welding equipment. During installation, use a level to adjust the levelness of the U-shaped clip 1 to ensure it is level and secure. According to design requirements, two U-shaped clips 1 are installed at the top and bottom of the first and last ALC wall panels 5 on each wall; one U-shaped clip 1 is installed at the top and bottom of each ALC wall panel 5 between the first and last panels on each wall.
[0048] IV. ALC Board Installation
[0049] First panel installation: Slowly insert the first ALC wall panel 5 into the bottom U-shaped clip 1, ensuring that the bottom of the wall panel is tightly fitted with the U-shaped clip 1 without any wobbling. Then, use two U-shaped clips 1 to fix the top of the wall panel, again ensuring that the U-shaped clips 1 are tightly fitted with the top of the wall panel. Use a level to check the verticality of the wall panel, and adjust it promptly if there is any deviation.
[0050] Subsequent panel installation: Insert the subsequent ALC wall panels 5 into the adjacent U-shaped clips 1 one by one, securing each wall panel at the top and bottom with a U-shaped clip 1. During installation, ensure tight joints between wall panels to avoid gaps. Use wooden wedges or other tools to temporarily fix the wall panels for easy position adjustments.
[0051] Final panel installation: For the last ALC wall panel 5 on each wall, double U-shaped clips 1 are used for reinforcement and fixing. Two U-shaped clips 1 are installed at the top and bottom of the wall panel to enhance its overall stability and impact resistance. After installation, a level is used again to check the verticality and flatness of the wall panel to ensure construction quality.
[0052] V. Calibration and Sealing
[0053] Verticality calibration: Use a level to thoroughly inspect all installed ALC wall panels 5 to ensure that each wall panel is vertical and flat. If any wall panel is found to be tilted or uneven, it can be corrected by adjusting the position of the U-shaped clips 1 or by adding or removing shims until the verticality of the wall panel meets the design requirements.
[0054] Joint sealing: Fill the joint between two adjacent ALC wall panels 5 with elastic sealant. Before filling, clean the dust and debris from the joint to ensure good adhesion between the sealant and the wall panel. When filling the joint with sealant, fill it evenly and fully to avoid air bubbles and cracks. Use a dedicated joint filling tool to improve the sealing effect.
[0055] VI. Construction Results and Advantages
[0056] Through the structural design and construction process of this embodiment, rapid installation of autoclaved aerated concrete (ALC) panel interior partition walls is achieved, improving construction efficiency. The fixing method combining U-shaped clips 1 and embedded parts 2 enhances the stability and impact resistance of the wall panels, ensuring construction quality. Simultaneously, this construction process has the advantage of cost savings; U-shaped clips 1 and embedded parts 2 are reusable, and the construction process is simple and easy, reducing labor and material waste. Furthermore, the joints between adjacent wall panels are filled with elastic sealant, improving the sound insulation, heat insulation, and waterproofing performance of the wall panels, making it suitable for the construction of interior partition walls in various buildings.
Claims
1. An autoclaved aerated concrete (AAC) panel interior partition wall structure, comprising structural beams (3), structural piles (4), and ALC wall panels (5), wherein two structural piles (4) are respectively fixedly installed between the upper and lower structural beams (3), and several ALC wall panels (5) are sequentially fixedly installed within a square space formed by the structural piles (4) and the structural beams (3), characterized in that, The top and bottom of the ALC wall panel (5) are fixedly connected to the structural beam (3) by U-shaped clips (1). The U-shaped clips (1) are fixedly installed on the structural beam (3). The U-shaped clips (1) are provided with U-shaped clip cavities that fit the shape of the top or bottom of the ALC wall panel (5).
2. The autoclaved aerated concrete (AAC) panel internal partition wall structure according to claim 1, characterized in that, At least one U-shaped clip (1) is provided between the top and bottom of each ALC wall panel (5) and the structural beam (3).
3. The autoclaved aerated concrete (AAC) panel internal partition wall structure according to claim 2, characterized in that, At least two U-shaped clips (1) are respectively provided between the top and bottom of the ALC wall panel (5) at both ends and the structural beam (3).
4. The autoclaved aerated concrete (AAC) panel internal partition wall structure according to claim 1, characterized in that, The U-shaped card (1) is composed of a horizontal plate (11) and a vertical plate (12), with the two vertical plates (12) respectively set on both sides of the horizontal plate (11) to form a U-shaped card cavity.
5. The autoclaved aerated concrete (AAC) panel internal partition wall structure according to claim 4, characterized in that, The U-shaped card (1) is made by bending and forming in one piece.
6. The autoclaved aerated concrete (AAC) panel internal partition wall structure according to claim 4, characterized in that, The U-shaped clip (1) is fixed to the structural beam (3) by the embedded part (2). The embedded part (2) is embedded in the structural beam (3), and the U-shaped clip (1) is fixedly connected to the embedded part (2).
7. The autoclaved aerated concrete (AAC) panel internal partition wall structure according to claim 6, characterized in that, The embedded part (2) consists of embedded bars (21) and embedded plates (22). The embedded bars (21) are embedded in the structural beam (3), and one side of the embedded plate (22) is set outside the structural beam (3).
8. The autoclaved aerated concrete (AAC) panel internal partition wall structure according to claim 7, characterized in that, The horizontal plate (11) is connected to the embedded plate (22) by welding or bolting.
9. The autoclaved aerated concrete (AAC) panel internal partition wall structure according to claim 6, characterized in that, The distance between the two embedded parts (2) is no more than 600mm.
10. The autoclaved aerated concrete (AAC) panel internal partition wall structure according to claim 1, characterized in that, The joint between two adjacent ALC wall panels (5) is filled with elastic sealant.