Ceramic concrete wallboard with fireproof effect
The design of the installation and stabilization components solves the problems of splicing, installation and stabilization of traditional ceramsite concrete wall panels, enabling rapid connection, disassembly and double fixation, enhancing structural stability and fire resistance, and ensuring the long-term stability and fire resistance of the wall panels.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- YANGZHOU HAOFENG ENVIRONMENTAL PROTECTION BUILDING MATERIALS CO LTD
- Filing Date
- 2025-09-02
- Publication Date
- 2026-07-07
AI Technical Summary
Traditional ceramsite concrete wall panels present challenges in splicing, installation, and secure fixing. Installation is complex, inefficient, lacks a dual fixing mechanism, is prone to tipping over, and has an unstable structure, failing to guarantee structural stability and fire resistance during long-term use.
The design incorporates installation and stabilization components, including sliding frames, insert plates, and soil-embedded cones, to enable quick connection, disassembly, and dual fixation of wall panels. The soil-embedded cones provide foundation support by anchoring the panels in the soil, enhancing structural stability. Fire-resistant rock wool boards and foamed concrete boards are used to improve fire resistance and thermal insulation performance.
It enables rapid installation and disassembly of wall panels, enhances the structural stability and fire resistance, reduces the risk of cracking and misalignment at joints, and ensures structural stability and fire resistance during long-term use.
Smart Images

Figure CN224468643U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of ceramsite concrete wall panel technology, and in particular to a ceramsite concrete wall panel with fire-resistant properties. Background Technology
[0002] As the construction industry continues to develop, ceramsite concrete wall panels, with their advantages of being lightweight, high-strength, and providing thermal insulation, are widely used in various building partitions and enclosure structures. With increasing demands for building safety and practicality, the demand for fire-resistant ceramsite concrete wall panels is growing. However, traditional ceramsite concrete wall panels still face many unresolved industry pain points in terms of splicing, installation, and secure fixing, severely impacting their performance and widespread application. In the splicing and installation stage, traditional ceramsite concrete wall panels often use bolt connections, welding, or cement mortar bonding. Bolt connections and welding not only require professional construction personnel but also complex equipment such as drilling machines and welding machines, resulting in cumbersome and inefficient installation processes. Furthermore, disassembly requires damaging the wall panel structure, rendering the panels unusable and causing material waste. Simultaneously, traditional splicing methods lack an effective double-fixing mechanism, making it difficult to cope with structural deformation during long-term use and resulting in poor practicality. Similarly, the fixing methods for traditional ceramsite concrete wall panels also have significant shortcomings in the secure fixing stage. Some wall panels rely on simple supports or gravity placement, lacking immediate and effective foundation support during the initial installation. Especially in soft outdoor soil environments, the wall panels are prone to tilting due to instability, increasing construction safety risks. During long-term use, when exposed to wind, ground vibration, or localized external impacts, the concentrated stress can cause the fixing components to loosen, leading to tilting and displacement of the wall panels, thus failing to guarantee the structural stability of the wall panels during long-term use. Therefore, we propose a fire-resistant ceramsite concrete wall panel to solve this problem. Utility Model Content
[0003] The purpose of this utility model is to provide a fire-resistant ceramsite concrete wall panel to solve the problems mentioned in the background art.
[0004] To achieve the above objectives, the present invention adopts the following technical solution:
[0005] A fire-resistant ceramsite concrete wall panel includes: wall panel one and wall panel two. Two sets of mounting blocks are fixedly installed on the right side of both wall panel one and wall panel two. Two sets of mounting blocks on the left side are movably inserted into the interior of wall panel two. Two sets of placement grooves and sliding grooves are formed on one side of each of the two sets of wall panels one and wall panel two. Installation components are provided inside the placement grooves and sliding grooves on the same side. Each installation component includes: a sliding frame, a sliding plate inside the sliding frame, and an insert plate fixedly installed on one side of the sliding plate. The insert plate is movably inserted into the interior of the corresponding wall panel one and wall panel two. One end of the sliding frame is fixedly installed with an insert block and a connecting plate. The insert block is movably inserted into the interior of the corresponding mounting block. One end of the connecting plate is fixedly installed with a square plate, which is slidably installed inside the sliding groove. Two sets of fixing plates are fixedly installed on both sides of the first wall panel and the second wall panel. The bottom of each of the eight sets of fixing plates is provided with a stabilizing component. The stabilizing component includes a soil-piercing cone. A lead screw is installed inside the soil-piercing cone. A threaded plate is threaded to the outside of the lead screw. Two sets of diagonal rods are movably abutted inside the threaded plate. The two sets of diagonal rods slide through to both sides of the soil-piercing cone.
[0006] Preferably, the four sets of sliding plates are slidably installed inside the corresponding sliding frames. Each of the four sets of sliding frames is provided with a spring. The two ends of the springs are fixedly connected to the inner wall of one side of the corresponding sliding plate and the sliding frame. Each of the four sets of sliding plates is fixedly installed with a pull plate on one side.
[0007] Preferably, each of the four sets of slides is provided with a second spring, and the two ends of the four sets of second springs are respectively fixedly connected to the corresponding square plate and the inner wall of one side of the slide.
[0008] Preferably, the eight sets of soil-piercing cones are fixedly installed at the bottom of the corresponding fixed plates, the eight sets of lead screws are rotatably installed inside the corresponding soil-piercing cones, the eight sets of lead screws rotate through to the top of the corresponding fixed plates, the top of each of the eight sets of lead screws is fixedly installed with a knob, the inside of each of the eight sets of threaded plates is slidably installed with a guide rod, and the eight sets of guide rods are fixedly installed inside the corresponding soil-piercing cones.
[0009] Preferably, a limiting groove is provided on one side of each of the four sets of placement grooves, and a limiting block is slidably installed inside each of the four sets of limiting grooves. The four sets of limiting blocks are respectively fixedly connected to the corresponding sliding frame.
[0010] Preferably, both wall panel one and wall panel two are internally provided with foamed concrete board, fireproof rock wool board, ceramsite support board and reinforcing rib board.
[0011] In this utility model, a fire-resistant ceramsite concrete wall panel is provided with an installation assembly. By pulling the pull plate horizontally to the right, the pull plate moves the sliding plate, causing the sliding plate to disengage from the interior of the second wall panel while squeezing the first spring. Then, by pulling the pull plate upward, the sliding frame moves the connecting plate and the square plate while stretching the second spring. This aligns the two sets of installation blocks on the left side of the first wall panel with the corresponding slots of the second wall panel and allows them to be inserted, initially connecting the first and second wall panels. At this point, under the reset action of the first and second springs, the insertion plate is re-inserted into the interior of the second wall panel, and the insertion block is movably inserted into the interior of the installation block. This structure is simple and easy to operate, facilitating quick connection, disassembly, and double fixing of the first and second wall panels. This makes the overall structure of the wall panel after splicing more stable. Even under long-term use and exposure to environmental vibration or slight external impact, it can maintain the connection state, reducing the risk of cracking and misalignment at the splicing point, extending the service life of the spliced wall panel, and increasing the practicality of the device.
[0012] In this invention, a fire-resistant ceramsite concrete wall panel is provided with a stabilizing component. Rotating a knob causes a lead screw to rotate within a soil-embedded cone. Because the lead screw is threaded to a threaded plate on the outside, two sets of inclined rods inside the threaded plate gradually unfold as the plate moves downwards. These inclined rods slide through both sides of the soil-embedded cone and insert into the surrounding soil, forming a multi-point support structure with a conical bottom and inclined rods on both sides. This strengthens the contact area and friction between the soil-embedded cone and the soil, allowing the cone to quickly take root and provide immediate foundation support for the wall panel. This prevents the wall panel from tipping over due to instability during initial installation. Furthermore, the gradual unfolding and penetration of the inclined rods through both sides of the cone into the soil significantly increases the contact area with the soil, preventing tilting or displacement of the wall panel due to excessive local stress and ensuring structural stability during long-term use. Attached Figure Description
[0013] Figure 1 This is a three-dimensional structural diagram of a fire-resistant ceramsite concrete wall panel proposed in this utility model.
[0014] Figure 2 This is a cross-sectional structural diagram of a fire-resistant ceramsite concrete wall panel proposed in this utility model.
[0015] Figure 3 This is a cross-sectional view of a fire-resistant ceramsite concrete wall panel proposed in this utility model.
[0016] Figure 4 for Figure 2 A magnified view of part A in the middle;
[0017] Figure 5 for Figure 3 A magnified view of part B in the middle section.
[0018] In the diagram: 1. Wall panel one; 2. Wall panel two; 3. Mounting block; 4. Fixing plate; 5. Mounting assembly; 501. Sliding frame; 502. Pull plate; 503. Sliding plate; 504. Insert plate; 505. Insert block; 506. Connecting plate; 507. Square plate; 508. Limiting block; 509. Spring one; 510. Spring two; 6. Stabilizing assembly; 601. Knob; 602. Lead screw; 603. Threaded plate; 604. Diagonal bar; 605. Guide rod; 606. Soil-insulating cone; 7. Foamed concrete board; 8. Fireproof rock wool board; 9. Ceramsite support plate; 10. Reinforcing rib plate. Detailed Implementation
[0019] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments.
[0020] Reference Figure 1-5 A fire-resistant ceramsite concrete wall panel includes: wall panel 1 and wall panel 2. Two sets of mounting blocks 3 are fixedly installed on the right side of both wall panel 1 and wall panel 2. Two sets of mounting blocks 3 on the left side are movably inserted into the interior of wall panel 2. Two sets of placement grooves and sliding grooves are provided on one side of both wall panels 1 and wall panel 2. Installation components 5 are provided inside the placement grooves and sliding grooves on the same side. Installation components 5 include: a sliding frame 501, a sliding plate 503 inside the sliding frame 501, and an insert plate 504 fixedly installed on one side of the sliding plate 503. The insert plate 504 is movably inserted into the interior of the corresponding wall panel 1 and wall panel 2. One end of the sliding frame 501 is fixed... The wall panel 1 and wall panel 2 are fixedly installed with two sets of fixing plates 4 on both sides. The bottom of each set of fixing plates 4 is provided with a stabilizing component 6. The stabilizing component 6 includes a soil-piercing cone 606. The soil-piercing cone 606 is provided with a lead screw 602 inside. The lead screw 602 is threadedly connected to a threaded plate 603 on the outside. The threaded plate 603 is movably abutted against two sets of diagonal rods 604 inside. The two sets of diagonal rods 604 slide through to both sides of the soil-piercing cone 606.
[0021] In this embodiment, four sets of sliding plates 503 are slidably installed inside the corresponding sliding frames 501. Each of the four sets of sliding frames 501 is provided with a spring 509. The two ends of the four sets of springs 509 are fixedly connected to the inner wall of one side of the corresponding sliding plate 503 and the sliding frame 501. Each of the four sets of sliding plates 503 is fixedly installed with a pull plate 502 on one side, which facilitates the quick reset of the insert plate 504 and the quick installation and double fixation of wall panel 1 and wall panel 2. Each of the four sets of sliding grooves is provided with a spring 510. The two ends of the four sets of springs 510 are fixedly connected to the inner wall of one side of the corresponding square plate 507 and the sliding groove, which facilitates the quick reset of the insert block 505 and the quick installation and disassembly of wall panel 1 and wall panel 2.
[0022] In this embodiment, eight sets of soil-piercing cones 606 are fixedly installed at the bottom of the corresponding fixed plates 4, and eight sets of lead screws 602 are rotatably installed inside the corresponding soil-piercing cones 606. The eight sets of lead screws 602 rotate through to the top of the corresponding fixed plates 4. A knob 601 is fixedly installed on the top of each of the eight sets of lead screws 602. A guide rod 605 is slidably installed inside each of the eight sets of threaded plates 603. The eight sets of guide rods 605 are fixedly installed inside the corresponding soil-piercing cones 606 to facilitate the stable movement of the two sets of inclined rods 604. A limit groove is opened on one side of each of the four sets of placement slots. A limit block 508 is slidably installed inside each of the four sets of limit grooves. The four sets of limit blocks 508 are fixedly connected to the corresponding sliding frames 501 to facilitate the stable movement of the sliding frames 501. Foamed concrete board 7, fireproof rock wool board 8, ceramsite support board 9 and reinforcing rib board 10 are provided inside both wall panel 1 and wall panel 2 to facilitate better fireproof and waterproof effects of wall panel 1 and wall panel 2.
[0023] In this embodiment, during use, by pulling the pull plate 502 horizontally to the right, the pull plate 502 moves the slide plate 503, causing the slide plate 503 to disengage the insert plate 504 from the interior of the second wall panel 2 while simultaneously squeezing the first spring 509. Then, by pulling the pull plate 502 upwards, the slide frame 501 moves the connecting plate 506 and the square plate 507 while stretching the second spring 510, causing the slide frame 501 to move the insert block 505 into the placement slot. At this time, the two sets of mounting blocks 3 on the left side of the first wall panel 1 are aligned with the corresponding slots of the second wall panel 2 and movably inserted, so that the first wall panel 1 and the second wall panel 2 are initially connected. At this time, under the reset action of the first spring 509 and the second spring 510, the insert plate 504 is re-inserted into the interior of the second wall panel 2, and the insert block 505 is movably inserted into the interior of the mounting block 3. This facilitates a stable connection and double fixation of the first wall panel 1 and the second wall panel 2. During disassembly, wall panel 1 and wall panel 2 can be disassembled by repeating the operation. The soil-inserting cone 606 can be directly inserted into the soil of the installation foundation. The cone-shaped structure of the soil-inserting cone 606 enhances the initial engagement with the soil, providing basic support for the wall panel and preventing it from tilting in the early stages of installation. Turning the knob 601 drives the screw rod 602 to rotate inside the soil-inserting cone 606. Since the screw rod 602 is threadedly connected to the threaded plate 603, the two sets of inclined rods 604 inside the threaded plate 603 gradually unfold as the threaded plate 603 moves down. The inclined rods 604 slide through to both sides of the soil-inserting cone 606 and insert into the surrounding soil, forming a multi-point support structure of the cone-shaped bottom and the inclined rods 604 on both sides. This strengthens the contact area and friction between the soil-inserting cone 606 and the soil, further improving the stability of the wall panel, effectively resisting the influence of external forces on the wall panel, and preventing the wall panel from tilting or shifting. To remove the wall panel, turn knob 601 in the reverse direction. Screw 602 moves threaded plate 603 upwards, and diagonal bar 604 retracts into the soil-insulating cone 606 under soil pressure. The soil-insulating cone 606 can then be pulled out to complete the disassembly. Fireproof rock wool board 8 has excellent high-temperature resistance and flame-retardant properties. In the event of a fire, it effectively blocks the spread of flames, reduces heat transfer, and prevents rapid heating of the wall panel's internal structure, thus buying time for evacuation and firefighting. Foamed concrete board 7 contains numerous closed pores, providing excellent thermal insulation. This further reduces the rate of heat transfer through the wall panel, enhancing its fireproof and heat-insulating effects while reducing its overall weight. The lightweight and high-strength ceramsite support board 9 provides stable support for the internal structure of the wall panel, preventing the fireproof rock wool board 8 and foamed concrete board 7 from softening and deforming due to high temperatures. The reinforcing ribs 10 further enhance the overall structural strength of the wall panel, preventing breakage under fire or external force, ensuring the integrity of the fireproof structure, and continuously maintaining its fireproof function.
[0024] The above provides a detailed description of a fire-resistant ceramsite concrete wall panel provided by this utility model. Specific embodiments have been used to illustrate the principle and implementation of this utility model. The descriptions of these embodiments are merely for the purpose of helping to understand the method and core idea of this utility model. It should be noted that those skilled in the art can make various improvements and modifications to this utility model without departing from its principles, and these improvements and modifications also fall within the protection scope of the claims of this utility model.
Claims
1. A fire-resistant ceramsite concrete wall panel, characterized in that, include: Wall panel 1 (1) and wall panel 2 (2), each wall panel 1 (1) and wall panel 2 (2) are fixedly equipped with two sets of mounting blocks (3) on their right sides. The two sets of mounting blocks (3) on the left side are movably inserted into the interior of wall panel 2 (2). Each of the two sets of wall panels 1 (1) and wall panel 2 (2) has two sets of placement grooves and sliding grooves on one side. The placement grooves and sliding grooves on the same side are equipped with mounting components (5). The mounting components (5) include: a sliding frame (501), the sliding frame (501) is equipped with a sliding plate (503), the sliding plate (503) is fixedly equipped with a plug plate (504) on one side, the plug plate (504) is movably inserted into the interior of the corresponding wall panel 1 (1) and wall panel 2 (2), and one end of the sliding frame (501) is fixedly equipped with a plug block (505) and a connecting... The plate (506) and the insert (505) are movably inserted into the corresponding mounting block (3). A square plate (507) is fixedly installed at one end of the connecting plate (506). The square plate (507) is slidably installed inside the slide groove. Two sets of fixing plates (4) are fixedly installed on both sides of the wall panel one (1) and the wall panel two (2). A stabilizing component (6) is provided at the bottom of each of the eight sets of fixing plates (4). The stabilizing component (6) includes: a soil-piercing cone (606). A screw rod (602) is provided inside the soil-piercing cone (606). A threaded plate (603) is threadedly connected to the outside of the screw rod (602). Two sets of inclined rods (604) are movably abutted inside the threaded plate (603). The two sets of inclined rods (604) slide through to both sides of the soil-piercing cone (606).
2. The fire-resistant ceramsite concrete wall panel according to claim 1, characterized in that it comprises four sets of... The slide plates (503) are slidably installed inside the corresponding slide frames (501). Each of the four slide frames (501) is provided with a spring (509). The two ends of the four springs (509) are fixedly connected to the inner wall of one side of the corresponding slide plate (503) and slide frame (501). Each of the four slide plates (503) is fixedly installed with a pull plate (502) on one side.
3. A fire-resistant ceramsite concrete wall panel according to claim 1, characterized in that it comprises four sets of... Each of the four sets of springs (510) is provided inside the slide. The two ends of the springs (510) are respectively fixedly connected to the corresponding square plate (507) and the inner wall of one side of the slide.
4. A fire-resistant ceramsite concrete wall panel according to claim 1, characterized in that... The eight sets of soil-piercing cones (606) are respectively fixedly installed at the bottom of the corresponding fixed plates (4). The eight sets of lead screws (602) are respectively rotatably installed inside the corresponding soil-piercing cones (606). The eight sets of lead screws (602) rotate through to the top of the corresponding fixed plates (4). A knob (601) is fixedly installed on the top of each of the eight sets of lead screws (602). A guide rod (605) is slidably installed inside each of the eight sets of threaded plates (603). The eight sets of guide rods (605) are respectively fixedly installed inside the corresponding soil-piercing cones (606).
5. A fire-resistant ceramsite concrete wall panel according to claim 1, characterized in that a limiting groove is provided on one side of each of the four sets of placement grooves, a limiting block (508) is slidably installed inside each of the four sets of limiting grooves, and the four sets of limiting blocks (508) are respectively fixedly connected to the corresponding sliding frame (501).
6. A fire-resistant ceramsite concrete wall panel according to claim 1, characterized in that... Both wall panel one (1) and wall panel two (2) are equipped with foamed concrete board (7), fireproof rock wool board (8), ceramsite support board (9) and reinforcing rib board (10).