Mounting structure of honeycomb aluminum plate for suspended ceiling
The combined structure of hangers, hanging components, and aluminum plate hooks solves the problem of the inability to make fine adjustments after the installation of honeycomb aluminum panel ceilings, improving stability and aesthetics, and ensuring neat seams and construction efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- CHINA CONSTR EIGHT ENG DIV CORP LTD
- Filing Date
- 2025-06-09
- Publication Date
- 2026-06-12
Smart Images

Figure CN224351475U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of building decoration engineering technology, and in particular to an installation structure for a honeycomb aluminum ceiling panel. Background Technology
[0002] With the continuous updating of architectural design concepts and people's increasing demands for the aesthetics and functionality of interior decoration, honeycomb aluminum panels have gradually become a popular choice for ceiling materials due to their unique advantages. Honeycomb aluminum panels are a composite material consisting of two layers of aluminum panels and a honeycomb core material sandwiched in between.
[0003] However, despite the excellent performance of honeycomb aluminum panels, the current installation structures used to support them have many drawbacks. Traditional installation structures often draw on the installation experience of ordinary aluminum panels, employing single-point suspension or simple keel frames with bolt connections. This type of installation structure has significant shortcomings in terms of stability. In addition, existing installation structures struggle to precisely control the horizontal and vertical alignment of the honeycomb aluminum panels, as well as the splicing gaps between adjacent aluminum panels.
[0004] This is mainly attributed to differences in the skill levels of construction workers and interference from the complex on-site environment. Furthermore, the lack of an effective fine-tuning mechanism in traditional installation structures often results in uneven ceilings, loose aluminum panel joints, and inconsistent gap widths after installation. These issues significantly affect the overall aesthetics of the ceiling and make subsequent rectifications difficult, costly, and time-consuming. Therefore, there is a need to provide an installation structure for honeycomb aluminum panels in ceilings that can solve the problem of the inability to fine-tune ceilings after installation in existing technologies. Summary of the Invention
[0005] The purpose of this utility model is to provide an installation structure for honeycomb aluminum ceiling panels, which can solve the problem that ceiling panels cannot be finely adjusted after installation in the prior art.
[0006] This utility model is implemented as follows:
[0007] An installation structure for a honeycomb aluminum panel ceiling includes a honeycomb aluminum panel body, splicing components, hangers, secondary keels, suspension rods, and main keels. The upper ends of several suspension rods are respectively installed at several suspension points on the ceiling. The main keels are horizontally inserted into the lower ends of the suspension rods, and are arranged longitudinally at intervals along the ceiling. Each main keel is fastened with at least two suspension components. One end of the secondary keel is adjustable and longitudinally inserted into the suspension components and vertically positioned below the main keel. One end of the honeycomb aluminum panel body is hooked onto the other end of the secondary keel, and the other end of the honeycomb aluminum panel body overlaps with one end of an adjacent honeycomb aluminum panel body, allowing adjacent honeycomb aluminum panel bodies to be horizontally spliced. Adjacent honeycomb aluminum panel bodies are longitudinally spliced through splicing components, forming a ceiling structure through the longitudinal and transverse splicing of several honeycomb aluminum panel bodies.
[0008] The suspension rod includes a long screw, a clamp, and a short screw; the upper end of the long screw is installed at the suspension point of the ceiling; the top of the clamp forms a horizontal connecting section; the lower end of the long screw passes through the horizontal connecting section of the clamp and is adjustablely connected to the horizontal connecting section via a nut; the bottom of the clamp forms a U-shaped slot, and the main keel passes through and is installed in the U-shaped slot; the short screw passes through and is installed at the top opening of the U-shaped slot and is located above the main keel.
[0009] The hanging component has an inverted U-shaped cross-section with an open bottom. The opening width of the hanging component matches the cross-sectional width of the main keel, so that the hanging component is fastened to the main keel.
[0010] The hanging component has T-shaped grooves formed on both sides of its hanging component. One end of the T-shaped groove extends downward through the hanging component. The cross-section of the secondary keel has an inverted L-shaped structure at one end and a J-shaped structure at the other end, so that one end of the secondary keel can be matched and inserted into the horizontal section and the lower vertical section of the T-shaped groove through the inverted L-shaped structure. The secondary keel can be longitudinally adjusted and inserted through multiple hanging components located on the same longitudinal line.
[0011] The bottom of both sides of the hanging component has clearance notches, and the clearance notches of all hanging components are set in the same direction; the clearance notches are L-shaped, and the horizontal section of the clearance notch is connected to the bottom of the vertical section of the T-shaped groove, so that the J-shaped structure of the secondary keel is located at the clearance notch and hooked to one end of the honeycomb aluminum panel body.
[0012] The honeycomb aluminum panel body is composed of a lower aluminum panel, a honeycomb sandwich panel, and an upper aluminum panel connected sequentially from bottom to top. One end of the lower aluminum panel has an inverted L-shaped corner, and the other end has an inverted J-shaped hook. The height of the corner is higher than the hook, allowing the hook to hook onto the J-shaped structure at the other end of the secondary keel. The corner of the lower aluminum panel body can overlap the hook of the lower aluminum panel body adjacent to it, allowing two adjacent honeycomb aluminum panels to be horizontally spliced.
[0013] The lower aluminum plate has splicing conversion parts formed on both short sides, and the splicing conversion parts of two adjacent honeycomb aluminum plate bodies spliced longitudinally are connected by splicing components.
[0014] The splicing conversion component has a cross-shaped splicing groove formed along its length. The splicing assembly includes a connecting gasket and a fixing bolt. The bolt head of the fixing bolt is inserted into the splicing groove. The bolt section of the fixing bolt passes through the splicing groove and the end of the connecting gasket and is screwed with a nut, so that the two ends of the connecting gasket are respectively pressed onto two longitudinally adjacent splicing conversion components by the nuts.
[0015] Compared with the prior art, this utility model has the following advantages:
[0016] 1. This utility model features a hanger and a hanging bracket. The main keel is inserted through the U-shaped slot at the bottom of the hanger's clamp, and the inverted U-shaped hanging bracket is directly fastened to the main keel. The secondary keel is installed through the T-shaped slot, which facilitates the installation of the honeycomb aluminum panel body by crisscrossing the arrangement below the hanging points. At the same time, the height of the main keel can be adjusted by the adjustable connection between the long screw of the hanger and the horizontal connecting section at the top of the clamp, thus ensuring the installation height and splicing flatness of the honeycomb aluminum panel body. The installation position of the secondary keel can be adjusted by the longitudinal sliding of the secondary keel along the T-shaped slot and the lateral sliding of the hanging bracket along the main keel, so as to ensure neat splicing, tight splicing, and consistent gap width of the honeycomb aluminum panel body, thereby improving the aesthetics and convenience of ceiling construction.
[0017] 2. This utility model, by providing a lower aluminum plate with a long side folded corner end, a lower aluminum plate with a long side hook end, a splicing conversion component, and a splicing assembly, achieves rapid connection between the honeycomb aluminum plate body and the secondary keel through the hook connection of the lower aluminum plate with a long side hook end on the secondary keel. It achieves horizontal splicing of adjacent honeycomb aluminum plate bodies through the overlap of the lower aluminum plate with a long side folded corner end on the adjacent lower aluminum plate with a long side hook end. It achieves vertical splicing of adjacent honeycomb aluminum plate bodies through the connection of the splicing conversion component and the splicing assembly, thereby splicing the various honeycomb aluminum plate bodies to form an overall beautiful ceiling structure.
[0018] 3. This utility model can improve the overall stability, reliability and construction efficiency of honeycomb aluminum ceiling panels, facilitate precise control of the joint gap and elevation between aluminum panels, reduce maintenance costs and facilitate later maintenance, meet the dual requirements of modern building decoration for efficient construction and high safety, promote on-site construction progress and construction quality, and has high promotion and application value. Attached Figure Description
[0019] Figure 1 This is a construction diagram illustrating the installation structure of the honeycomb aluminum ceiling panel of this utility model;
[0020] Figure 2 This is a schematic diagram of the main structure of the honeycomb aluminum panel in the installation structure of the honeycomb aluminum panel for ceiling of this utility model (the upper aluminum panel is not shown);
[0021] Figure 3 This is a schematic diagram of the lower aluminum plate in the installation structure of the honeycomb aluminum panel for ceiling of this utility model;
[0022] Figure 4 This is a schematic diagram of the honeycomb sandwich panel in the installation structure of the honeycomb aluminum ceiling panel of this utility model;
[0023] Figure 5This is a schematic diagram of the splicing and conversion component in the installation structure of the honeycomb aluminum ceiling panel of this utility model;
[0024] Figure 6 This is a schematic diagram of the splicing of the main body of the honeycomb aluminum panel in the installation structure of the honeycomb aluminum panel for ceiling of this utility model;
[0025] Figure 7 This is a schematic diagram of the connection between the splicing conversion piece and the splicing assembly in the installation structure of the honeycomb aluminum ceiling panel of this utility model;
[0026] Figure 8 This is a schematic diagram of the horizontal splicing of the main body of the honeycomb aluminum panel in the installation structure of the honeycomb aluminum panel for ceiling of this utility model;
[0027] Figure 9 This is a schematic diagram of the connection between the main keel and the secondary keel in the installation structure of the honeycomb aluminum ceiling panel of this utility model;
[0028] Figure 10 This is a front view of the connection between the main keel and the secondary keel in the installation structure of the honeycomb aluminum ceiling panel of this utility model;
[0029] Figure 11 This is a three-dimensional view of the hanging components in the installation structure of the honeycomb aluminum ceiling panel of this utility model;
[0030] Figure 12 This is a three-dimensional view of the secondary keel in the installation structure of the honeycomb aluminum ceiling panel of this utility model;
[0031] Figure 13 This is a three-dimensional view of the hanger rod in the installation structure of the honeycomb aluminum ceiling panel of this utility model;
[0032] Figure 14 This is a three-dimensional view of the main keel in the installation structure of the honeycomb aluminum ceiling panel of this utility model.
[0033] In the diagram, 1 is the long side bend of the lower aluminum plate, 2 is the long side hook of the lower aluminum plate, 3 is the honeycomb sandwich panel, 4 is the splicing conversion piece, 41 is the splicing groove, 5 is the connecting gasket, 6 is the fixing bolt, 7 is the hanging piece, 71 is the T-slot, 72 is the clearance notch, 8 is the secondary keel, 9 is the hanging rod, 10 is the main keel, 11 is the long screw, 12 is the hoop, 121 is the horizontal connecting section, 122 is the U-shaped slot, and 13 is the short screw. Detailed Implementation
[0034] The present invention will be further described below with reference to the accompanying drawings and specific embodiments.
[0035] Please see the appendix Figure 1 and attached Figure 8An installation structure for a honeycomb aluminum panel ceiling includes a honeycomb aluminum panel body, splicing components, hanging parts 7, secondary keels 8, suspension rods 9, and main keels 10. The upper ends of several suspension rods 9 are respectively installed at several suspension points on the ceiling. The main keels 10 are horizontally inserted into the lower ends of the suspension rods 9, and are arranged at intervals along the longitudinal direction of the ceiling. Each main keel 10 is fastened with at least two hanging parts 7. One end of the secondary keel 8 is adjustable and vertically inserted into the hanging parts 7 and positioned below the main keel 10. One end of the honeycomb aluminum panel body is hooked onto the other end of the secondary keel 8, and the other end of the honeycomb aluminum panel body overlaps with one end of an adjacent honeycomb aluminum panel body, allowing adjacent honeycomb aluminum panel bodies to be horizontally spliced. Adjacent honeycomb aluminum panel bodies are vertically spliced through splicing components, forming a ceiling structure through the horizontal and vertical splicing of several honeycomb aluminum panel bodies.
[0036] By installing hangers 9, the main keel 10 can be suspended below the suspension points of the ceiling. The suspension height of the main keel 10 can be finely adjusted using hangers 9, ensuring a flat surface after the honeycomb aluminum panel is assembled, thus avoiding unevenness and other quality issues. The number and spacing of hangers 9 can be adjusted adaptively according to load requirements.
[0037] The secondary keel 8 is connected to the main keel 10 by the setting of the hanging part 7. The hanging part 7 is directly installed on the main keel 10 by snap-fit, which is convenient and quick to install and remove. The secondary keel 8 is connected to the hanging part 7 by plug-in, which can quickly install the secondary keel 8 and adjust the longitudinal position of the secondary keel 8, thereby ensuring that the joints of the honeycomb aluminum panel are aligned after the main body is assembled and the appearance is beautiful.
[0038] By setting up splicing components, the main body of the honeycomb aluminum panel is spliced longitudinally through the splicing components, and the main body of the honeycomb aluminum panel is spliced laterally through the secondary keel 8, ensuring that the splicing of the main body of the honeycomb aluminum panel is tight and the gaps are of consistent width.
[0039] Please see the appendix Figure 9 Appendix Figure 10 Appendix Figure 13 and attached Figure 14 The suspension rod 9 includes a long screw 11, a clamp 12, and a short screw 13. The upper end of the long screw 11 is installed at the suspension point of the ceiling. The top of the clamp 12 forms a horizontal connecting section 121. The lower end of the long screw 11 passes through the horizontal connecting section 121 of the clamp 12 and is adjustablely connected to the horizontal connecting section 121 by a nut. The bottom of the clamp 12 forms a U-shaped slot 122, and the main keel 10 passes through and is installed in the U-shaped slot 122. The short screw 13 passes through and is installed at the top opening of the U-shaped slot 122 and is located above the main keel 10.
[0040] A nut is screwed onto the lower part of the long screw 11. The nut supports the bottom surface of the connecting horizontal section 121 on the upper part of the U-shaped slot 122. The setting height of the nut is adjusted by rotating the thread on the long screw 11, thereby adjusting the setting height of the connecting horizontal section 121 and thus realizing the height adjustment of the main keel 10.
[0041] The shape and size of the U-shaped slot 122 at the bottom of the hoop 12 can be determined according to the cross-sectional shape and size of the main keel 10 to ensure that the main keel 10 can be installed through the U-shaped slot 122. Each main keel 10 is hoisted by the hoop 12 with at least two hangers 9. The number of hangers 9 can be adjusted according to the weight and size of the main keel 10.
[0042] The short screw 13 and its nut are used to pass through the opening of the U-shaped slot 122, enclosing the main keel 10 within the U-shaped slot 122 and preventing the main keel 10 from coming out. The setting height of the short screw 13 can be adjusted according to the height of the main keel 10, thereby preventing the main keel 10 from moving up and down.
[0043] Please see the appendix Figure 9 and attached Figure 11 The cross-section of the hanging component 7 is an inverted U-shaped structure with an open bottom. The opening width of the hanging component 7 matches the cross-sectional width of the main keel 10, so that the hanging component 7 is fastened to the main keel 10.
[0044] The cross-sectional shape and dimensions of the hanger 7 can be determined according to the cross-sectional shape and dimensions of the main keel 10 to ensure that the hanger 7 can be fastened to the main keel 10 and can only be moved and adjusted along the length of the main keel 10. The hanger 7 is easy to install and remove from the main keel 10, and the number, spacing and position of the hanger 7 can be adaptively adjusted according to the installation stress requirements of the secondary keel 8.
[0045] Please see the appendix Figure 11 The hanging member 7 has T-shaped grooves 71 formed on both sides of its hanging member 7. One end of the T-shaped groove 71 extends downward through the hanging member 7. The cross-section of the secondary keel 8 has an inverted L-shaped structure at one end and a J-shaped structure at the other end, so that one end of the secondary keel 8 is matched and inserted into the horizontal section and the lower vertical section of the T-shaped groove 71 through the inverted L-shaped structure. The secondary keel 8 can be longitudinally adjusted and inserted by multiple hanging members 7 located on the same longitudinal line.
[0046] The T-slot 71 is designed to match the inverted L-shaped structure at one end of the secondary keel 8, facilitating the insertion of the secondary keel 8 into the horizontal and lower vertical sections of the T-slot 71. This enables quick connection and easy disassembly of the main keel 10 and the secondary keel 8. Simultaneously, the secondary keel 8 can slide along the T-slots 71 of multiple hangers 7 on the same longitudinal line to adjust its longitudinal position, ensuring neat and aesthetically pleasing seams after the honeycomb aluminum panel body is assembled.
[0047] Please see the appendix Figure 11 The bottom of both sides of the hanging component 7 are formed with clearance notches 72, and the clearance notches 72 of all hanging components 7 are set in the same direction; the clearance notches 72 are L-shaped, and the horizontal section of the clearance notch 72 is connected to the bottom of the vertical section of the T-shaped groove 71, so that the J-shaped structure of the secondary keel 8 is located at the clearance notch 72 and hooked to one end of the honeycomb aluminum plate body.
[0048] By setting the clearance notch 72, the J-shaped structure of the secondary keel 8 and its connection with one end of the honeycomb aluminum panel body are located at the clearance notch 72, thus avoiding installation interference between the secondary keel 8, the honeycomb aluminum panel body and the hanging parts 7.
[0049] Please see the appendix Figure 2 To be continued Figure 4 Appendix Figure 6 and attached Figure 8 The honeycomb aluminum panel body is composed of a lower aluminum panel, a honeycomb sandwich panel 3, and an upper aluminum panel connected sequentially from bottom to top. One end of the lower aluminum panel has an inverted L-shaped long side bend end 1, and the other end of the lower aluminum panel has an inverted J-shaped long side hook end 2. The height of the lower aluminum panel long side bend end 1 is slightly higher than that of the lower aluminum panel long side hook end 2, so that the lower aluminum panel long side hook end 2 can be hooked into the J-shaped structure at the other end of the secondary keel 8. The lower aluminum panel long side bend end 1 of the honeycomb aluminum panel body can overlap the lower aluminum panel long side hook end 2 of the adjacent honeycomb aluminum panel body, so that the two adjacent honeycomb aluminum panel bodies are horizontally spliced.
[0050] The main body of the honeycomb aluminum panel can adopt a three-layer structure of the lower aluminum panel, honeycomb sandwich panel 3 and upper aluminum panel, which is based on existing technology. Other structural forms of ceiling aluminum panels can also be selected according to actual decoration needs, which will not be elaborated here.
[0051] By setting the hook end 2 on the long side of the lower aluminum plate, the lower aluminum plate and the J-shaped structure at the other end of the secondary keel 8 can be hooked together by hooks, which makes disassembly and assembly convenient and will not loosen.
[0052] The height of the long-side bend end 1 of the lower aluminum plate is slightly higher than the height of the long-side hook end 2 of the lower aluminum plate. The height difference between the two is equal to the thickness of the long-side bend end 1 of the lower aluminum plate. This allows the horizontal section of the long-side bend end 1 of the lower aluminum plate to overlap the top of the horizontal section of the long-side hook end 2 of the lower aluminum plate, thus achieving the lateral splicing of two adjacent honeycomb aluminum plate main bodies. The lateral splicing operation of two adjacent honeycomb aluminum plate main bodies is convenient and the overlap is reliable.
[0053] Please see the appendix Figure 1 To be continued Figure 3 and attached Figure 5 To be continued Figure 7The lower aluminum plate has splicing conversion parts 4 formed on both short sides of its ends. The splicing conversion parts 4 of two adjacent honeycomb aluminum plate bodies that are spliced longitudinally are connected by splicing components.
[0054] By setting the splicing conversion component 4, it is easy to connect the splicing components between two adjacent honeycomb aluminum panels in the longitudinal splicing, and connect the two honeycomb aluminum panels into a whole in the longitudinal direction.
[0055] Please see the appendix Figure 7 The splicing conversion component 4 has a cross-shaped splicing groove 41 formed along its length. The splicing assembly includes a connecting gasket 5 and a fixing bolt 6. The bolt head of the fixing bolt 6 is inserted into the splicing groove 41. The screw section of the fixing bolt 6 passes through the splicing groove 41 and the end of the connecting gasket 5 and is screwed with a nut, so that the two ends of the connecting gasket 5 are respectively pressed onto the two longitudinally adjacent splicing conversion components 4 by the nuts.
[0056] The size of the splicing groove 41 can be adjusted to accommodate the size of the fixing bolt 6, ensuring that the bolt head of the fixing bolt 6 is engaged within the splicing groove 41 and can move horizontally along the splicing groove 41 without coming off upwards. After screwing the nut onto the upper part of the fixing bolt 6, screw the nut until the connecting washer 5 is pressed against the top surface of the splicing adapter 4, thereby connecting and fixing the end of the connecting washer 5 to the splicing adapter 4 of the honeycomb aluminum panel body.
[0057] The two ends of the connecting gasket 5 are connected and fixed to the splicing conversion parts 4 of the two longitudinally adjacent honeycomb aluminum panels, thereby realizing the longitudinal splicing of the two honeycomb aluminum panels.
[0058] Please see the appendix Figure 1 To be continued Figure 14 The splicing method and adjustment method of this utility model are as follows:
[0059] Step 1: Mark the control elevation line of the ceiling on the wall, fix the upper end of the long screw 11 in the hanger 9 to the floor slab with expansion bolts, and fit the main keel 10 into the U-shaped slot 122 on the hoop 12 to facilitate the installation of the main keel 10 below the hanger 9.
[0060] The nut can be moved up and down along the long screw 11 by rotating the thread between the long screw 11 and the nut, thereby driving the horizontal connecting section 121 of the adjusting hoop 12 to move up and down synchronously, so as to achieve the installation elevation of the adjusting hoop 12 and its inner main keel 10.
[0061] Step 2: After installing and adjusting the installation elevation of the main keel 10, insert the short screw 13 through the short screw hole at the top of the U-shaped slot 122 to fix the main keel 10, preventing the main keel 10 from coming out of the U-shaped slot 122. After tightening the short screw 13, check the elevation of the main keel 10 to ensure that the elevation of the main keel 10 meets the design requirements.
[0062] Step 3: Attach the hanger 7 to the main keel 10 through the bottom opening. Install at least two hangers 7 at intervals on each main keel 10. The hangers 7 must be straight.
[0063] Step 4: Insert the L-shaped structure at one end of the secondary keel 8 into the T-shaped groove 71 of the multiple hangers 7 located on the same longitudinal line, so that the secondary keel is hooked by the multiple hangers 7. The secondary keel 8 must be straight. The secondary keel 8 can be moved longitudinally to ensure that the installation position of the secondary keel 8 is accurate.
[0064] Step 5: The main body of the honeycomb aluminum panel is prefabricated in the factory. The main body of the honeycomb aluminum panel is composed of a lower aluminum plate, a honeycomb sandwich panel 3 and an upper aluminum plate connected sequentially from bottom to top. The honeycomb sandwich panel 3 is located between the lower aluminum plate and the upper aluminum plate.
[0065] The lower aluminum plate has an inverted L-shaped long side bend end 1 on one end of its long side, and an inverted J-shaped long side hook end 2 on the other end of its long side. The height of the lower aluminum plate has an inverted L-shaped long side bend end 1 slightly higher than that of the lower aluminum plate has a long side hook end 2.
[0066] Step 6: Hook the long side hook end 2 of the lower aluminum plate of the first honeycomb aluminum panel body to the J-shaped structure at the other end of the secondary keel 8, and place the long side folded end 1 of the lower aluminum plate of the second honeycomb aluminum panel body on the long side folded end 1 of the lower aluminum plate of the first honeycomb aluminum panel body, so that the second honeycomb aluminum panel body and the first honeycomb aluminum panel body are horizontally spliced.
[0067] Assemble the main body of the honeycomb aluminum panels in the horizontal row according to the steps described above. The specific steps will not be repeated here.
[0068] Step 7: Align and fit the splicing conversion parts on the short sides of the two adjacent honeycomb aluminum panels. Insert the bolt head of the fixing bolt 6 into the splicing groove 41 of the splicing conversion part 4. The screw section of the fixing bolt 6 passes upward through the splicing groove 41 and the through hole at the end of the connecting washer 5, and screw in the nut to lock it. The nut presses the two ends of the connecting washer 5 onto the top surface of the splicing conversion part 4, thereby realizing the longitudinal splicing of the two adjacent honeycomb aluminum panels.
[0069] The honeycomb aluminum panels are assembled sequentially according to the steps described above; the specific steps will not be repeated here.
[0070] Step 8: Complete the splicing of all the honeycomb aluminum panels to form an overall ceiling structure. The horizontal and vertical splicing of each honeycomb aluminum panel ensures the integrity and stability of the ceiling structure and prevents it from moving relative to the main and secondary joists.
[0071] The above are merely preferred embodiments of the present utility model and are not intended to limit the scope of protection of the present utility model. Therefore, any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the scope of protection of the present utility model.
Claims
1. An installation structure for honeycomb aluminum ceiling panels, characterized in that: The structure includes a honeycomb aluminum panel body, splicing components, hanging parts (7), secondary keel (8), hangers (9), and main keel (10); the upper ends of several hangers (9) are respectively installed at several suspension points of the ceiling, and the main keel (10) is horizontally inserted into the lower end of the hangers (9). The main keel (10) is arranged at intervals along the longitudinal direction of the ceiling; each main keel (10) is fastened with at least two hanging parts (7), and one end of the secondary keel (8) is adjustable and vertically inserted into the hanging parts (7) and set vertically below the main keel (10); one end of the honeycomb aluminum panel body is hooked onto the other end of the secondary keel (8), and the other end of the honeycomb aluminum panel body overlaps with one end of the adjacent honeycomb aluminum panel body, so that the two adjacent honeycomb aluminum panel bodies are horizontally spliced; the two adjacent honeycomb aluminum panel bodies are vertically spliced through splicing components, so that several honeycomb aluminum panel bodies are spliced horizontally and vertically to form a ceiling structure.
2. The installation structure of the honeycomb aluminum ceiling panel according to claim 1, characterized in that: The suspension rod (9) includes a long screw (11), a hoop (12), and a short screw (13); the upper end of the long screw (11) is installed at the suspension point of the ceiling, the top of the hoop (12) forms a connecting horizontal section (121), the lower end of the long screw (11) passes through the connecting horizontal section (121) of the hoop (12) and is adjustablely connected to the connecting horizontal section (121) by a nut; the bottom of the hoop (12) forms a U-shaped slot (122), and the main keel (10) is installed through the U-shaped slot (122); the short screw (13) is installed through the top opening of the U-shaped slot (122) and is located above the main keel (10).
3. The installation structure of the honeycomb aluminum ceiling panel according to claim 1, characterized in that: The hanging component (7) has an inverted U-shaped structure with an open bottom. The opening width of the hanging component (7) matches the cross-sectional width of the main keel (10), so that the hanging component (7) is fastened to the main keel (10).
4. The installation structure of the honeycomb aluminum ceiling panel according to claim 1 or 3, characterized in that: T-shaped grooves (71) are formed on both sides of the hanging member (7). One end of the T-shaped groove (71) passes through the hanging member (7) downward. The cross-section of the secondary keel (8) is an inverted L-shaped structure at one end and a J-shaped structure at the other end, so that one end of the secondary keel (8) is matched and inserted into the horizontal section and the lower vertical section of the T-shaped groove (71) through the inverted L-shaped structure. The secondary keel (8) can be longitudinally adjusted and inserted through multiple hanging members (7) located on the same longitudinal line.
5. The installation structure of the honeycomb aluminum ceiling panel according to claim 4, characterized in that: The bottom of both sides of the hanging component (7) are formed with clearance notches (72), and the clearance notches (72) of all hanging components (7) are set in the same direction; the clearance notches (72) are L-shaped, and the horizontal section of the clearance notches (72) is connected to the bottom of the vertical section of the T-shaped groove (71), so that the J-shaped structure of the secondary keel (8) is located at the clearance notch (72) and hooked to one end of the honeycomb aluminum plate body.
6. The installation structure of the honeycomb aluminum ceiling panel according to claim 5, characterized in that: The honeycomb aluminum panel body is composed of a lower aluminum plate, a honeycomb sandwich panel (3) and an upper aluminum plate connected sequentially from bottom to top; a lower aluminum plate long side corner (1) with an inverted L-shaped structure is formed on one end of the lower aluminum plate long side, and a lower aluminum plate long side hook (2) with an inverted J-shaped structure is formed on the other end of the lower aluminum plate long side. The height of the lower aluminum plate long side corner (1) is higher than that of the lower aluminum plate long side hook (2), so that the lower aluminum plate long side hook (2) can be hooked in the J-shaped structure at the other end of the secondary keel (8). The lower aluminum plate long side corner (1) of the honeycomb aluminum panel body can overlap the lower aluminum plate long side hook (2) of the adjacent honeycomb aluminum panel body, so that the two adjacent honeycomb aluminum panel bodies are horizontally spliced.
7. The installation structure of the honeycomb aluminum ceiling panel according to claim 6, characterized in that: The lower aluminum plate has splicing conversion parts (4) formed on both short sides. The splicing conversion parts (4) of two adjacent honeycomb aluminum plate bodies spliced longitudinally are connected by splicing components.
8. The installation structure of the honeycomb aluminum ceiling panel according to claim 7, characterized in that: The splicing conversion component (4) has a cross-shaped splicing groove (41) formed along its length. The splicing assembly includes a connecting gasket (5) and a fixing bolt (6). The bolt head of the fixing bolt (6) is inserted into the splicing groove (41). The screw section of the fixing bolt (6) passes through the splicing groove (41) and the end of the connecting gasket (5) and is screwed with a nut, so that the two ends of the connecting gasket (5) are respectively pressed onto the two longitudinally adjacent splicing conversion components (4) by the nuts.