Indoor suspended ceiling aluminum veneer convenient to disassemble
By using a locking ball and ball cage structure, combined with a circular moving plate and a guide groove design for the connecting column, the problem of time-consuming and labor-intensive installation of traditional aluminum single-panel ceilings is solved, enabling rapid disassembly and installation, and reducing construction cycle and cost.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Filing Date
- 2025-06-27
- Publication Date
- 2026-07-14
AI Technical Summary
The installation and dismantling of traditional aluminum single-panel ceilings is time-consuming and labor-intensive, extending the construction period and increasing costs.
It adopts a locking ball and ball cage structure, and achieves quick disassembly by pressing the locking ball with a thin plate. Combined with the guide groove design of the circular moving plate and connecting column, it improves the efficiency of installation and disassembly.
It enables quick and convenient installation and disassembly of aluminum panels, shortening the construction cycle and reducing labor and time costs.
Smart Images

Figure CN224495554U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of interior decoration, and in particular, it is an easy-to-disassemble aluminum single-panel ceiling panel for interiors. Background Technology
[0002] In interior decoration, ceilings serve as an important decorative element, not only beautifying the space but also concealing pipes and other fixtures. Aluminum panels are widely used in interior ceilings due to their high strength, moisture resistance, and corrosion resistance. However, traditional installation methods are time-consuming and labor-intensive during installation and dismantling, making it difficult to achieve quick and convenient installation of aluminum panels. This significantly extends the overall construction period of the ceiling project, increasing both labor and time costs.
[0003] A search revealed Chinese patent document (authorization announcement number CN212078497U), which discloses a disassembly-friendly indoor ceiling aluminum panel structure in the field of aluminum panel technology. The structure includes an aluminum panel, with a ceiling substrate movably connected to the left outer wall of the aluminum panel. A limiting block is provided on the left outer wall of the aluminum panel, and a locking device is provided on the left outer wall of the limiting block. A blind groove matching the limiting block is provided on the right outer wall of the ceiling substrate. The locking device moves through the groove and engages with the left outer wall of the ceiling substrate. The ceiling substrate has pre-reserved space for the limiting block and the locking device. Matching blind and through slots are used to pair aluminum panels with ceiling substrates. Limiting blocks with locking devices are set on the aluminum panels. The locking device is adjusted by a screw threaded in a hollow tube, which can drive the locking plate to adjust. At the same time, a bearing collar is set to prevent the locking plate from rotating with the screw, which can avoid wear on the surfaces of the aluminum panel and the ceiling substrate. It is easy to disassemble and reassemble and can be reused. This device can meet basic usage requirements, but it is difficult to achieve fast and convenient installation of aluminum panels, which will significantly extend the construction cycle of the entire ceiling project and increase labor and time costs. Utility Model Content
[0004] The purpose of this utility model is to provide an easily disassembled indoor ceiling aluminum panel to solve the problems mentioned in the background art.
[0005] To achieve the above objectives, this utility model provides the following technical solution: an easily detachable indoor ceiling aluminum panel, comprising multiple fixing seats for connecting to the indoor ceiling, each fixing seat having an adjusting rod for adjusting length installed at its bottom, the movable part of the adjusting rod being connected to a connecting rod, a horizontal frame being welded to the end of the connecting rod away from the adjusting rod, and multiple hollow locking posts for fixing being installed on the side of the horizontal frame;
[0006] The hollow locking post has a circular groove for guidance inside. A circular moving disk is slidably installed inside the circular groove. A connecting post is welded to the side of the circular moving disk. A ball bearing frame is connected to the end of the connecting post away from the circular moving disk. Locking balls are rotatably installed inside the ball bearing frame.
[0007] Preferably, the outer periphery of the circular moving disk is symmetrically connected with two guide posts, and the side of the hollow locking post is symmetrically provided with two U-shaped grooves for the movement of the guide posts.
[0008] Preferably, a spring for pulling a circular moving disk is connected inside the circular groove, one end of the spring is connected to the side of the circular moving disk, and the spring is slidably disposed on the outer periphery of the connecting post.
[0009] Preferably, the transverse frame has multiple guide grooves on both sides for locking the movement of the ball bearings, and the transverse frame has a strip groove inside.
[0010] Preferably, two L-shaped plates are slidably installed inside the transverse frame, and the sides of the two L-shaped plates are provided with multiple locking holes for cooperating with the guide groove.
[0011] Preferably, an aluminum single-panel body is provided between the top of the L-shaped plate and the bottom of the horizontal frame.
[0012] Preferably, the sides of the transverse frame are welded with vertical frames for support.
[0013] Compared with the prior art, the technical effects and advantages of this utility model are as follows:
[0014] This easily removable indoor ceiling aluminum panel benefits from the structure of locking balls and ball cages. A thin plate is inserted between two L-shaped panels, and the thin plate squeezes the locking balls. Finally, the locking balls drive the ball cage to separate from the locking hole, making it easy to remove the L-shaped panels and the aluminum panel body. Compared with traditional easily removable indoor ceiling aluminum panels, which are difficult to install quickly and conveniently, this structure can improve disassembly capabilities, significantly shorten the construction cycle of the entire ceiling project, and reduce labor and time costs.
[0015] This easily removable indoor ceiling aluminum panel benefits from the structure of a circular moving plate and connecting column. The locking ball enters the locking hole through the guide groove. The spring pulls the circular moving plate and connecting column to move into the locking hole. The connecting column drives the ball holder and locking ball into the locking hole. Finally, the ball holder and locking ball fix the L-shaped plate. This structure can improve the reliability of locking. Attached Figure Description
[0016] To more clearly illustrate the specific embodiments of this utility model or the technical solutions in the prior art, the drawings used in the description of the specific embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are some embodiments of this utility model. For those skilled in the art, other drawings can be obtained from these drawings without creative effort.
[0017] Figure 1 This is a schematic diagram of the structure of this utility model;
[0018] Figure 2 This is a cross-sectional view of the present invention;
[0019] Figure 3 This is a schematic diagram of the internal structure of the present invention;
[0020] Figure 4 This utility model Figure 2 Enlarged view of point A in the middle;
[0021] Figure 5 This utility model Figure 3 Enlarged view of point B in the middle.
[0022] Explanation of reference numerals in the attached figures:
[0023] In the diagram: 1. Fixed base; 101. Adjusting rod; 102. Connecting rod; 103. Horizontal frame; 104. Vertical frame; 105. Guide groove; 2. Hollow locking post; 201. Circular groove; 202. Spring; 203. Circular moving plate; 204. U-shaped groove; 205. Guide post; 206. Ball bearing frame; 207. Locking ball; 208. Connecting post; 3. L-shaped plate; 301. Locking hole; 302. Aluminum single panel body. Detailed Implementation
[0024] In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present invention. However, it will be apparent to those skilled in the art that the present invention can be practiced without one or more of these details. In other instances, certain technical features well-known in the art have not been described in order to avoid confusion with the present invention.
[0025] The connection method can be any existing method, such as bonding, welding, or bolting, depending on the actual needs.
[0026] like Figures 1 to 5The present invention relates to an easily detachable indoor ceiling aluminum panel, comprising multiple fixing seats 1 for connecting to the indoor ceiling, each fixing seat 1 having an adjusting rod 101 for adjusting length installed at its bottom, a connecting rod 102 connected to the movable part of the adjusting rod 101, a horizontal frame 103 welded to the end of the connecting rod 102 away from the adjusting rod 101, and multiple hollow locking posts 2 for fixing installed on the side of the horizontal frame 103.
[0027] The hollow locking post 2 has a circular groove 201 for guidance inside. A circular moving disk 203 is slidably installed inside the circular groove 201. A connecting post 208 is welded to the side of the circular moving disk 203. A ball bearing frame 206 is connected to the end of the connecting post 208 away from the circular moving disk 203. A locking ball 207 is rotatably installed inside the ball bearing frame 206. When pushing the L-shaped plate 3, the locking hole 301 is aligned with the guide groove 105. When the L-shaped plate 3 moves, the surface of the L-shaped plate 3 drives the locking ball 207 to rotate. Finally, the locking ball 207 enters the locking hole 301 through the guide groove 105. Two guide posts 205 are symmetrically connected to the outer periphery of the circular moving disk 203. Two U-shaped grooves 204 for the movement of the guide posts 205 are symmetrically arranged on the side of the hollow locking post 2.
[0028] The L-shaped plate 3 is pushed to slide along the transverse frame 103. When the locking hole 301 on the L-shaped plate 3 is fully aligned with the guide groove 105 of the transverse frame 103, the surface of the L-shaped plate 3 contacts the locking ball 207, generating friction and driving the ball to roll along the guide groove 105. At this time, the spring 202 is in a compressed and stored state. When the locking ball 207 enters the locking hole 301, the spring 202 releases its elastic potential energy, pulling the circular moving disk 203 and the connecting column 208 into the locking hole 301, thereby driving the ball holder 206 and the locking ball 207 deeper into the hole. The special structure of the ball bearing bracket 206 tightly engages with the inner wall of the locking hole 301, firmly locking the L-shaped plate 3 and the horizontal frame 103, simultaneously clamping the aluminum panel body 302 to form a stable ceiling structure. During disassembly, a thin plate is inserted between the two L-shaped plates 3, and external force is used to press and lock the ball bearings 207, forcing the balls to overcome the elastic force of the spring 202 and drive the ball bearing bracket 206 to move outwards. Once the ball bearing bracket 206 is completely separated from the locking hole 301, the L-shaped plate 3 loses its locking constraint and can be easily slid out, allowing for the removal of the aluminum panel body 302. The entire process requires no complex tools; through a simple mechanical lever principle and elastic reset structure, it achieves rapid and non-destructive disassembly, improving maintenance efficiency.
[0029] A spring 202 for pulling a circular moving disk 203 is connected inside the circular groove 201. One end of the spring 202 is connected to the side of the circular moving disk 203. The spring 202 is slidably disposed on the outer periphery of the connecting post 208. The spring 202 pulls the circular moving disk 203 and the connecting post 208 into the locking hole 301. The connecting post 208 drives the ball bearing frame 206 and the locking ball 207 into the locking hole 301. Finally, the ball bearing frame 206 and the locking ball 207 fix the L-shaped plate 3. If disassembly is required, a thin plate is inserted between the two L-shaped plates 3. The thin plate squeezes the locking ball 207. Finally, the locking ball 207 drives the ball bearing frame 206 to separate from the locking hole 301, making it easy to remove the L-shaped plate 3 and the aluminum single panel body 302.
[0030] The transverse frame 103 has multiple guide grooves 105 on both sides for moving the locking ball 207, and the transverse frame 103 has a strip groove inside.
[0031] Two L-shaped plates 3 are slidably installed inside the horizontal frame 103. The sides of the two L-shaped plates 3 have multiple locking holes 301 for engaging with guide grooves 105. An aluminum single-panel body 302 is positioned between the top of the L-shaped plates 3 and the bottom of the horizontal frame 103. A fixing seat 1 is fixed to the indoor ceiling using a fixing device. The connecting rod 102, horizontal frame 103, and vertical frame 104 are adjusted to a specified height and level using an adjusting rod 101. The L-shaped plates 3 are inserted into the grooves of the horizontal frame 103, and the aluminum single-panel body 302 is placed inside the two L-shaped plates 3. Vertical frames 104 for support are welded to the sides of the horizontal frame 103. The fixing seat 1 is securely installed to the indoor ceiling using a fixing device to ensure the stability of the system's load-bearing foundation. The height and level of the connecting rod 102, horizontal frame 103, and vertical frame 104 are precisely adjusted using the adjusting rod 101 to form a horizontal reference frame. Insert the L-shaped plate 3 into the reserved slot of the horizontal frame 103 to construct the aluminum single panel installation carrier; then place the aluminum single panel body 302 between the two L-shaped plates 3 to complete the basic positioning before installation. At this time, the L-shaped plate 3 is in a sliding state, providing operating space for subsequent locking.
[0032] Working principle
[0033] This easily detachable indoor ceiling aluminum panel is used by first fixing the fixing base 1 to the indoor ceiling using the fixing device. Then, the connecting rod 102, horizontal frame 103, and vertical frame 104 are adjusted to the specified height and level using the adjusting rod 101. The L-shaped plate 3 is inserted into the groove of the horizontal frame 103. The aluminum panel body 302 is placed inside the two L-shaped plates 3. Pushing the L-shaped plates 3 aligns the locking hole 301 with the guide groove 105. As the L-shaped plates 3 move, the surface of the L-shaped plates 3 drives the locking ball 207 to rotate. Finally, the locking ball 207 passes through... The guide groove 105 enters the locking hole 301. The spring 202 pulls the circular moving disk 203 and the connecting column 208 into the locking hole 301. The connecting column 208 drives the ball frame 206 and the locking ball 207 into the locking hole 301. Finally, the ball frame 206 and the locking ball 207 fix the L-shaped plate 3. If disassembly is required, a thin plate is inserted between the two L-shaped plates 3. The thin plate squeezes the locking ball 207. Finally, the locking ball 207 drives the ball frame 206 to separate from the locking hole 301, making it easy to remove the L-shaped plate 3 and the aluminum single plate body 302.
[0034] It should be noted that in this article, relational terms such as one and two are used only to distinguish one entity or operation from another entity or operation, and do not necessarily require or imply any such actual relationship or order between these entities or operations.
[0035] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. An easily removable indoor ceiling aluminum panel, comprising a plurality of fixing brackets (1) for connecting to the indoor ceiling, characterized in that: Each of the multiple fixed seats (1) is equipped with an adjusting rod (101) for adjusting the length. The movable part of the adjusting rod (101) is connected to a connecting rod (102). A transverse frame (103) is welded to the end of the connecting rod (102) away from the adjusting rod (101). Multiple hollow locking pins (2) for fixing are installed on the side of the transverse frame (103). The hollow locking post (2) has a circular groove (201) for guidance inside. A circular moving disk (203) is slidably installed inside the circular groove (201). A connecting post (208) is welded to the side of the circular moving disk (203). A ball bearing frame (206) is connected to the end of the connecting post (208) away from the circular moving disk (203). Locking balls (207) are rotatably installed inside the ball bearing frame (206).
2. The easily removable indoor ceiling aluminum panel according to claim 1, characterized in that: The outer periphery of the circular moving disk (203) is symmetrically connected with two guide posts (205), and the hollow locking post (2) is symmetrically provided with two U-shaped grooves (204) for the movement of the guide posts (205).
3. The easily removable indoor ceiling aluminum panel according to claim 1, characterized in that: The circular groove (201) is internally connected to a spring (202) for pulling a circular moving disk (203). One end of the spring (202) is connected to the side of the circular moving disk (203), and the spring (202) is slidably disposed on the outer periphery of the connecting column (208).
4. The easily removable indoor ceiling aluminum panel according to claim 1, characterized in that: The transverse frame (103) has multiple guide grooves (105) on both sides for moving the locking ball (207), and the transverse frame (103) has a strip groove inside.
5. The easily removable indoor ceiling aluminum panel according to claim 4, characterized in that: The transverse frame (103) has two L-shaped plates (3) that are slidably installed inside. The sides of the two L-shaped plates (3) are provided with a plurality of locking holes (301) for cooperating with the guide groove (105).
6. The easily removable indoor ceiling aluminum panel according to claim 5, characterized in that: An aluminum single-panel body (302) is provided between the top of the L-shaped plate (3) and the bottom of the horizontal frame (103).
7. The easily removable indoor ceiling aluminum panel according to claim 1, characterized in that: The side of the transverse frame (103) is welded with a vertical frame (104) for support.