Adjustable hanger point member for irregular ceiling mounting
By designing adjustable suspension point components and using bolt and nut assemblies for connection, the problem of inconvenient high-altitude welding of square pipes and conversion suspension points in irregular ceiling structures was solved, enabling fast and reliable installation and improving construction efficiency and quality.
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
AI Technical Summary
In traditional irregular ceiling structures, high-altitude welding between square tubes and transition suspension points is inconvenient and dangerous, leading to installation quality defects and low efficiency.
Adjustable suspension point components are adopted, including suspension point assembly, adjustable lugs, connectors, square tubes and connecting lugs, which are connected by bolt and nut groups to avoid high-altitude welding and achieve quick disassembly and assembly and reliable connection.
It improves installation efficiency and quality, avoids the dangers of high-altitude welding and installation deviations, meets installation requirements for different directions and heights, and is suitable for irregular ceiling construction.
Smart Images

Figure CN224351473U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of building construction technology, and in particular to an adjustable suspension point component for installing irregularly shaped ceilings. Background Technology
[0002] In the construction of large public spaces such as airport terminals and convention centers, interior design often employs irregular shapes and curved surfaces to create unique spatial aesthetics and visual effects. However, traditional irregular-shaped ceiling construction suffers from deficiencies in structural systems and single-panel technology. The combination of aluminum panels and aluminum alloy profiles makes it difficult to form a composite section with high rigidity, resulting in poor overall structural stability. It is unable to construct a complete load-bearing system through its own strength and connection methods. Therefore, aluminum / steel square tubes are often used instead of aluminum panels in irregular-shaped ceiling structures.
[0003] In the actual construction of irregular ceiling structures, the connection between aluminum / steel square tubes and transition suspension points is constructed by welding. This method is time-consuming, inconvenient, and dangerous, often leading to quality defects such as installation deviations. Therefore, there is a need for an adjustable suspension point component for irregular ceiling installation, which can solve the problems of inconvenience, danger, and installation quality defects associated with high-altitude welding between square tubes and transition suspension points in existing irregular ceiling structures. Summary of the Invention
[0004] The purpose of this utility model is to provide an adjustable suspension point component for the installation of irregular ceilings, which can solve the problems of inconvenience and danger of high-altitude welding between square tubes and conversion suspension points in the existing irregular ceiling structure, as well as installation quality defects.
[0005] This utility model is implemented as follows:
[0006] An adjustable suspension point component for installing irregularly shaped ceilings includes a suspension point assembly, adjustable ear plates, connectors, a square tube, and connecting ear plates. The top of the suspension point assembly is fixedly installed at a designated conversion suspension point. The adjustable ear plates are connected to the bottom of the suspension point assembly, allowing the adjustable ear plates to be adjusted and installed below the designated conversion suspension point via the suspension point assembly. The connecting ear plates are disposed on the square tube and are detachably connected to the adjustable ear plates via connectors, allowing the square tube to be installed below the suspension point assembly.
[0007] The lifting point assembly includes a fixed plate, an adjusting sleeve, and an adjusting screw; the fixed plate is fixedly installed at a designated switching lifting point, and the upper end of the adjusting sleeve is vertically fixed to the bottom surface of the fixed plate; the inner wall of the adjusting sleeve is threaded so that the upper part of the adjusting screw is screwed into the adjusting sleeve, and the lower part of the adjusting screw extends adjustablely out of the adjusting sleeve and is fixedly connected to an adjustable ear plate.
[0008] The adjustable ear plate includes a V-shaped ear plate and an inverted V-shaped ear plate; wherein, the large end of the V-shaped ear plate is fixedly connected to the bottom of the adjusting screw, and the small end of the V-shaped ear plate forms a connecting hole for connecting parts to pass through; the small end of the inverted V-shaped ear plate is fixedly connected to the bottom of the adjusting screw, and both sides of the large end of the inverted V-shaped ear plate form connecting holes for connecting parts to pass through.
[0009] The adjusting sleeve and adjusting screw are coaxially arranged. The axes of the adjusting sleeve and adjusting screw pass upward through the center of the fixed plate, and the axes of the adjusting sleeve and adjusting screw are collinear with the center line of the adjustable ear plate downward.
[0010] The connecting lugs include a first connecting lug arranged axially perpendicular to the square tube and a second connecting lug arranged axially parallel to the square tube; the ends of the first and second connecting lugs away from the square tube are formed with connecting holes for connecting components to pass through and connect.
[0011] The connecting component is a bolt and nut assembly.
[0012] Compared with the prior art, this utility model has the following advantages:
[0013] 1. This utility model, by incorporating adjustable ear plates, connectors, square tubes, and connecting ear plates, allows the square tube to be installed below a designated conversion lifting point via the connectors, adjustable ear plates, and connecting ear plates. The connectors utilize bolt and nut assemblies, enabling quick assembly and disassembly with reliable connection. This avoids on-site high-altitude welding, solving the quality defects of existing technologies such as long high-altitude welding operation time, inconvenient welding, high risk factor, and resulting installation deviations. It can effectively improve the installation efficiency and quality of square tubes.
[0014] 2. This utility model, with its suspension point assembly and adjustable ear plate, allows for adjustment of the adjustable ear plate's orientation and height below the suspension point by rotating the thread between the adjusting sleeve and the adjusting screw. This satisfies the installation and connection requirements of square tubes in different directions, ensuring the decorative effect of the square tubes and making it widely applicable to the construction of irregular ceilings.
[0015] 3. The lifting point assembly, adjustable ear plate, square tube and connecting ear plate of this utility model can be prefabricated in the factory according to the design requirements, and can be mass-produced. On site, they only need to be connected by connectors, which improves work efficiency and saves labor. It is economical and practical, and simple to operate on site. It has high versatility and economy. Attached Figure Description
[0016] Figure 1 This is a structural diagram of the adjustable suspension point component and the adjustable ear plate (the adjustable ear plate is a V-shaped ear plate) in the adjustable suspension point component for installation of irregular ceilings according to this utility model;
[0017] Figure 2 This is a structural diagram of the adjustable suspension point component and the adjustable ear plate (the adjustable ear plate is an inverted V-shaped ear plate) in the adjustable suspension point component for installation of irregular ceilings according to this utility model;
[0018] Figure 3 This is a structural schematic diagram of the connecting component in the adjustable suspension point component for installing irregularly shaped ceilings according to this utility model;
[0019] Figure 4 This is a structural diagram of the square tube and connecting ear plate of the adjustable suspension point component for installing irregular ceilings according to this utility model.
[0020] In the diagram, 1 is a fixed plate, 2 is an adjusting sleeve, 3 is an adjusting screw, 4 is an adjustable ear plate, 5 is a connector, 6 is a square tube, and 7 is a connecting ear plate. Detailed Implementation
[0021] The present invention will be further described below with reference to the accompanying drawings and specific embodiments.
[0022] Please see the appendix Figure 1 To be continued Figure 4 An adjustable suspension point component for installing irregularly shaped ceilings includes a suspension point assembly, an adjustable ear plate 4, a connector 5, a square tube 6, and a connecting ear plate 7. The top of the suspension point assembly is fixedly installed at a designated transition suspension point on the bottom surface of the roof steel structure or the bottom surface of the concrete structural slab. The adjustable ear plate 4 is connected to the bottom of the suspension point assembly, so that the adjustable ear plate 4 can be adjusted and installed below the designated transition suspension point through the suspension point assembly. The connecting ear plate 7 is disposed on the square tube 6, and the connecting ear plate 7 is detachably connected to the adjustable ear plate 4 through the connector 5, so that the square tube 6 is installed below the suspension point assembly.
[0023] The suspension point assembly facilitates the installation of the adjustable ear plate 4 at designated switching suspension points. The installation angle of the adjustable ear plate 4 can be adjusted by rotating the suspension point assembly to meet the installation requirements of the square tube 6 in different directions, thereby satisfying the construction requirements of irregular ceiling structures. The number of suspension point assemblies is the same as the number of adjustable ear plates 4, and their number can be adaptively adjusted according to the installation and connection requirements of the square tube 6 to ensure that the square tube 6 can be reliably installed onto the irregular ceiling structure.
[0024] The square tube 6 is connected to the adjustable ear plate 4 via the connecting ear plate 7 and the connector 5. No welding is required, and the disassembly and assembly are quick and convenient. The connection is reliable, which solves the problems of long working time, inconvenient welding and high risk factor in the existing technology of high-altitude welding.
[0025] The lifting point assembly and adjustable ear plate 4 can be integrally molded during processing, and the square tube 6 and connecting ear plate 7 can also be integrally molded during processing, which facilitates rapid on-site installation, improves installation accuracy and efficiency, and avoids quality defects such as installation deviations caused by the difficulty of high-altitude welding.
[0026] Please see the appendix Figure 1 and attached Figure 2 The lifting point assembly includes a fixed plate 1, an adjusting sleeve 2, and an adjusting screw 3. The fixed plate 1 is fixedly installed at a designated transition lifting point on the bottom surface of the roof steel structure or the bottom surface of the concrete structure slab. The upper end of the adjusting sleeve 2 is vertically fixed to the bottom surface of the fixed plate 1. Threads are threaded on the inner wall of the adjusting sleeve 2 so that the upper part of the adjusting screw 3 is screwed into the adjusting sleeve 2. The lower part of the adjusting screw 3 extends adjustablely out of the adjusting sleeve 2 and is fixedly connected to the adjustable ear plate 4.
[0027] Preferably, the fixing plate 1 can be made of rectangular steel plate, which is convenient to install to the designated conversion suspension point on the bottom surface of the roof steel structure or the bottom surface of the concrete structure slab by means of screwing, welding or other methods.
[0028] Preferably, the adjusting sleeve 2 can be a metal internal thread sleeve, and the adjusting screw 3 can be a metal screw. This allows for adjustment of the installation angle of the adjustable ear plate 4 by rotating the adjusting screw 3 relative to the adjusting sleeve 2, and also adjusts the installation height of the adjustable ear plate 4 to meet the installation and connection requirements of square tubes 6 in different directions and at different heights, ensuring the decorative effect of the square tube 6. Simultaneously, the threaded engagement ensures the relative length between the adjusting screw 3 and the adjusting sleeve 2, thereby guaranteeing the reliable installation of the square tube 6.
[0029] Please see the appendix Figure 1 and attached Figure 2 The adjustable ear plate 4 includes, but is not limited to, a V-shaped ear plate and an inverted V-shaped ear plate; wherein, the large end of the V-shaped ear plate is fixedly connected to the bottom of the adjusting screw 3, and the small end of the V-shaped ear plate has a connecting hole for the connecting member 5 to pass through and connect; the small end of the inverted V-shaped ear plate is fixedly connected to the bottom of the adjusting screw 3, and both sides of the large end of the inverted V-shaped ear plate have connecting holes for the connecting member 5 to pass through and connect.
[0030] Preferably, the adjustable ear plate 4 can be made of steel plate and welded to the bottom of the adjusting screw 3. The shape, size and other structural forms of the adjustable ear plate 4, as well as the number and position of the connecting holes on it, can be adaptively adjusted according to actual connection requirements, so as to meet the connection requirements of different numbers and directions of square tubes 6.
[0031] Please see the appendix Figure 1 and attached Figure 2 The adjusting sleeve 2 and the adjusting screw 3 are coaxially arranged. The axes of the adjusting sleeve 2 and the adjusting screw 3 pass upward through the center of the fixed plate 1, and the axes of the adjusting sleeve 2 and the adjusting screw 3 are collinear with the center line of the adjustable ear plate 4 downward, so as to ensure the vertical force transmission effect and thus ensure that the load after the square tube 6 is installed is uniform and stable.
[0032] Please see the appendix Figure 4The connecting ear plate 7 includes, but is not limited to, a first connecting ear plate arranged perpendicular to the axial direction of the square tube 6 and a second connecting ear plate arranged parallel to the axial direction of the square tube 6; the ends of the first connecting ear plate and the second connecting ear plate away from the square tube 6 are formed with connecting holes for the connecting member 5 to pass through and connect.
[0033] The number and position of the connecting lugs 7 on the square tube 6 can be adjusted according to actual connection requirements. For example, if the square tube 6 is long and heavy, the number of connecting lugs 7 can be increased accordingly. The orientation of the connecting lugs 7 on the square tube 6 can be adapted to the design layout of the square tube 6 and the orientation of the adjustable lugs 4 to ensure a reliable connection between the square tube 6 and the adjustable lugs 4, and to ensure that the square tube 6 is laid out according to the requirements of the decorative design.
[0034] Please see the appendix Figure 3 The connecting component 5 is a bolt and nut assembly, which facilitates quick assembly and disassembly and ensures a stable and secure connection.
[0035] Please see the appendix Figure 1 To be continued Figure 4 In a large-scale, irregularly shaped ceiling structure resembling a spiral "DNA" in a major airport, the square tube 6 is made of aluminum. The square tube 6 is arranged in different heights and angles according to the DNA spiral shape. The construction method of this utility model in this irregularly shaped ceiling structure is as follows:
[0036] Step 1: According to the design drawings of the DNA helix-shaped irregular ceiling structure, fix the fixing plate 1 to the designated conversion suspension point on the bottom surface of the roof steel structure or the bottom surface of the concrete structure slab by welding or bolting, so that each designated conversion suspension point is equipped with a suspension point assembly with adjustable ear plate 4.
[0037] Step 2: For each suspension point assembly, the length of the adjustable screw 3 inside the adjusting sleeve 2 and the length of the adjustable screw extending below the adjusting sleeve 2 can be adjusted and controlled by rotating the screw 3 through the thread, so as to meet the installation height and installation angle requirements of the subsequent square tube 6.
[0038] Step 3: Use connector 5 to connect and fix the connecting hole on the adjustable ear plate 4 to the connecting hole on the connecting ear plate 7, so that the square tube 6 is installed below the designated conversion suspension point. Each square tube 6 is installed through the adjustable ear plate 4 via at least two suspension point assemblies to ensure that the installation is firm and safe.
[0039] Step 4: Repeat steps 1 to 3 to install all the square tubes 6 in different positions, so that the square tubes 6 can play a decorative role in the irregular ceiling structure and make the overall shape meet the design requirements.
[0040] 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 adjustable suspension point component for installing irregularly shaped ceilings, characterized in that: It includes a suspension point assembly, an adjustable ear plate (4), a connector (5), a square tube (6), and a connecting ear plate (7); the top of the suspension point assembly is fixedly installed at a designated conversion suspension point, and the adjustable ear plate (4) is connected to the bottom of the suspension point assembly, so that the adjustable ear plate (4) is adjustablely installed below the designated conversion suspension point through the suspension point assembly; the connecting ear plate (7) is set on the square tube (6), and the connecting ear plate (7) is detachably connected to the adjustable ear plate (4) through the connector (5), so that the square tube (6) is installed below the suspension point assembly.
2. The adjustable suspension point component for installing irregularly shaped ceilings according to claim 1, characterized in that: The lifting point assembly includes a fixed plate (1), an adjusting sleeve (2), and an adjusting screw (3); the fixed plate (1) is fixedly installed at the designated switching lifting point, and the upper end of the adjusting sleeve (2) is vertically fixed to the bottom surface of the fixed plate (1); the inner wall of the adjusting sleeve (2) is threaded so that the upper part of the adjusting screw (3) is matched and screwed into the adjusting sleeve (2), and the lower part of the adjusting screw (3) extends out of the adjusting sleeve (2) in an adjustable manner and is fixedly connected to the adjustable ear plate (4).
3. The adjustable suspension point component for installing irregularly shaped ceilings according to claim 2, characterized in that: The adjustable ear plate (4) includes a V-shaped ear plate and an inverted V-shaped ear plate; wherein, the large end of the V-shaped ear plate is fixedly connected to the bottom of the adjusting screw (3), and the small end of the V-shaped ear plate forms a connecting hole for the connecting piece (5) to pass through and connect; the small end of the inverted V-shaped ear plate is fixedly connected to the bottom of the adjusting screw (3), and both sides of the large end of the inverted V-shaped ear plate form connecting holes for the connecting piece (5) to pass through and connect.
4. The adjustable suspension point component for installing irregularly shaped ceilings according to claim 2, characterized in that: The adjusting sleeve (2) and the adjusting screw (3) are coaxially arranged. The axes of the adjusting sleeve (2) and the adjusting screw (3) pass upward through the center of the fixed plate (1), and the axes of the adjusting sleeve (2) and the adjusting screw (3) are collinear with the center line of the adjustable ear plate (4) downward.
5. The adjustable suspension point component for installing irregularly shaped ceilings according to claim 1, characterized in that: The connecting ear plate (7) includes a first connecting ear plate arranged axially perpendicular to the square tube (6) and a second connecting ear plate arranged axially parallel to the square tube (6); the first connecting ear plate and the second connecting ear plate have connecting holes formed at the ends away from the square tube (6) for the connecting member (5) to pass through and connect.
6. The adjustable suspension point component for installing irregularly shaped ceilings according to claim 1, 3, or 5, characterized in that: The connecting component (5) is a bolt and nut assembly.