Building curtain wall cleaning hanging point structure

By combining aluminum panels with aluminum alloy corner brackets and other components, flexible adjustment and stable connection of the hanging point structure for building curtain wall cleaning are achieved, solving the problem of inconvenient installation in existing technologies, improving safety and reducing costs.

CN224387394UActive Publication Date: 2026-06-23HUBEI CHAMPS ELYSEES CURTAIN WALL DECORATION ENG CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HUBEI CHAMPS ELYSEES CURTAIN WALL DECORATION ENG CO LTD
Filing Date
2025-04-30
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

The existing curtain wall cleaning hanging point structure cannot achieve structural flexibility and adapt to different installation needs, resulting in inconvenient installation and high maintenance costs.

Method used

The system combines aluminum panels with aluminum alloy corner brackets, hot-dip galvanized steel tubes, foam rod sealant, and thick fireproof rock wool. It also incorporates aluminum alloy light troughs and thick round steel pipe cleaning and hanging points to achieve flexible structural adjustment and stable connection. Tool-free disassembly and sealed installation are achieved through the design of sliding columns, slots, and limiting blocks.

Benefits of technology

It improves the flexibility and adaptability of the hanging point structure, reduces installation and maintenance costs, enhances safety and load-bearing capacity, avoids the risk of detachment or breakage, and simplifies the operation process.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to building curtain wall technical field discloses a kind of building curtain wall cleaning hanging point structure, including curtain wall, the outside of curtain wall is slidably connected with connecting mechanism, the inside of curtain wall is fixedly connected with dismounting mechanism, and the connecting mechanism includes aluminium veneer, the outside of aluminium veneer is fixedly connected with, the outside of aluminium veneer is slidably connected with aluminium alloy corner code, the outside of aluminium veneer is fixedly connected with galvanizing steel pass two, the inside of aluminium veneer is slidably connected with foam stick sealant, the outside of aluminium veneer is slidably connected with galvanizing angle steel, the inside of aluminium veneer is fixedly connected with thick fireproof rock wool, the outside of aluminium veneer is slidably connected with lighting assembly.The utility model can meet the installation needs of different cleaning equipment, simplify the structure of mobile hanging point, reduce installation and maintenance cost, enhance the load-bearing capacity and safety of hanging point structure, effectively avoid the risk of falling off or breaking.
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Description

Technical Field

[0001] This utility model relates to the field of building curtain wall technology, and in particular to a cleaning hanging point structure for building curtain walls. Background Technology

[0002] The building curtain wall cleaning hanging point structure is a device composed of various components, installed on the curtain wall to provide hanging connection points for cleaning equipment. It is convenient, efficient, safe, reliable, economical, and flexible, and is used for daily cleaning, maintenance and repair of building curtain walls.

[0003] A search revealed Chinese Patent Publication No. CN214402340U, which discloses a cantilevered aluminum panel curtain wall internal drainage node and curtain wall structure. The structure includes an upper panel and a lower panel arranged vertically, and an inner panel connecting the upper and lower panels. The upper panel has a drainage slope, and the lower panel has a drip line. An outer decorative panel is located on the outside of the inner panel assembly, with a decorative surface formed on the side of the outer panel facing away from the inner panel assembly. A hanging assembly is located on the facing end faces of the inner panel and the outer decorative panel, allowing the outer decorative panel to be hung and fixed to the outside of the inner panel assembly via the hanging assembly. A water passage gap is reserved between the inner panel and the outer decorative panel, and the drainage slope is adapted to communicate with the drip line through the water passage gap. This forms an internal drainage structure, allowing rainwater to flow through the drainage slope and water passage gap to the drip line and then discharge, preventing rainwater from directly washing the decorative surface and causing rust, yellowing, and water stains. This achieves a self-cleaning function for the decorative panel and extends the subsequent cleaning and maintenance cycle.

[0004] The aforementioned patent specification mentions that "by creating a drainage slope on the upper panel and setting a drip line on the lower panel, the outer panel is directly hung on the outside of the inner panel assembly via a hanging component, with a pre-reserved water passage gap between the outer panel and the inner panel assembly, forming an internal drainage structure. This allows rainwater to flow through the drainage slope and water passage gap to the drip line, and finally be discharged by the drip line, preventing rainwater from directly washing the decorative surface and causing rust, yellowing, and water stains. This achieves a self-cleaning function for the decorative panel and extends the subsequent cleaning and maintenance cycle." While the aforementioned patent can achieve a self-cleaning function, it lacks structural flexibility and adaptability to different installation requirements. Therefore, a building curtain wall cleaning hanging point structure is proposed to solve the above problems. Utility Model Content

[0005] To overcome the above shortcomings, this utility model provides a hanging point structure for cleaning building curtain walls, aiming to improve the problem that the existing technology cannot achieve structural flexibility and adapt to different installation needs.

[0006] To achieve the above objectives, the present invention adopts the following technical solution:

[0007] A building curtain wall cleaning hanging point structure includes a curtain wall, a connecting mechanism slidably connected to the outside of the curtain wall, and a disassembly mechanism fixedly connected to the inside of the curtain wall.

[0008] The connecting mechanism includes an aluminum panel, with an aluminum alloy angle bracket fixedly connected to the outer side of the aluminum panel, a hot-dip galvanized steel tube fixedly connected to the outer side of the aluminum panel, a foam rod sealant slidably connected to the inner side of the aluminum panel, a hot-dip galvanized angle steel slidably connected to the outer side of the aluminum panel, thick fireproof rock wool fixedly connected to the inner side of the aluminum panel, and a lighting component slidably connected to the outer side of the aluminum panel.

[0009] Through the above technical solutions, aluminum panels are stably installed by using aluminum alloy corner brackets in conjunction with hot-dip galvanized steel tubes and hot-dip galvanized angle steel. The position can be flexibly adjusted to adapt to different curtain wall design requirements. Foam rod sealant is filled into the gaps inside the aluminum panels, providing good waterproofing and dustproofing and maintaining a stable internal environment for the curtain wall. Thick fireproof rock wool is fixed inside the aluminum panels, effectively improving the fire resistance of the curtain wall. Lighting components are slidably connected to the outside of the aluminum panels, making them easy to install and turn on as needed, providing lighting for the surrounding area of ​​the curtain wall.

[0010] As a further description of the above technical solution:

[0011] The lighting assembly includes an aluminum alloy light trough, the outer side of which is slidably connected to the outer side of the aluminum single panel, a light fixture is slidably connected to the inside of the aluminum alloy light trough, and an aluminum alloy light trough cover is rotatably connected to the inside of the aluminum alloy light trough.

[0012] With the above technical solution, when lighting is needed, the aluminum alloy light trough is slidably connected to a suitable position on the outside of the aluminum panel and fixed. Then, the light fixture is slid into the aluminum alloy light trough and installed in place. When not in use, the aluminum alloy light trough cover is rotated to close and protect the light fixture. When lighting is needed, the cover is opened and the light fixture is turned on to provide light.

[0013] As a further description of the above technical solution:

[0014] The disassembly mechanism includes a thick round steel pipe cleaning hanging point, one end of which is fixedly connected to a sliding column, a fixed column is slidably connected inside the sliding column, multiple limiting blocks are fixedly connected to the outside of the fixed column, a sealing shell is fixedly connected inside the fixed column, a sealing ring is slidably connected inside the sealing shell, and a compression ring is fixedly connected inside the sliding column.

[0015] With the above technical solution, when the cleaning hanging point of the thick round steel pipe needs to be disassembled, the sliding column is rotated, the limiting block is disengaged from the slot, the sliding column is removed, and after cleaning, it is reinstalled. The sliding column drives the extrusion ring to extrude the sealing ring, and the limiting block slides into the slot. The sliding column is rotated to a specific position, and the sealing ring, under the action of the spring, makes the connection of the cleaning hanging point of the thick round steel pipe more stable.

[0016] As a further description of the above technical solution:

[0017] The sliding column has multiple slots inside, and the outer side of the limiting block is slidably connected to the inside of the slots;

[0018] With the above technical solution, when installing the cleaning hanging point of the thick round steel pipe, the sliding column slides towards the fixed column, and the limiting block slides into the slot. When the sliding column is rotated, the limiting block will move in the slot until it is rotated to the corner of the slot. At this time, the limiting block is locked in the slot, so that the sliding column and the fixed column are tightly connected, ensuring the stability of the hanging point structure.

[0019] As a further description of the above technical solution:

[0020] Multiple springs are fixedly connected inside the sealing shell, and the other end of each spring is fixedly connected to the inside of the sealing ring.

[0021] With the above technical solution, when the sliding column slides into the fixed column, the extrusion ring squeezes the sealing ring, the spring is compressed and contracts, and after the limiting block slides into the slot and is fixed, the spring rebounds and pushes the sealing ring outward to further tighten the fit with the extrusion ring, enhance the sealing effect, prevent water vapor and dust from entering, ensure the stability of the internal structure of the thick round steel pipe cleaning hanging point, and improve service life and safety.

[0022] As a further description of the above technical solution:

[0023] The outer side of the compression ring slides on the outer side of the sealing shell, and the inner side of the compression ring slides on the outer side of the sealing ring.

[0024] With the above technical solution, when the sliding column slides into the fixed column, the internal compression ring approaches the sealing ring. As the sliding goes deeper, the compression ring begins to compress the sealing ring, causing the sealing ring to deform. After the limiting block is in place, the spring pushes the sealing ring to press the compression ring in the opposite direction, so that the two fit tightly together, achieving good sealing and stable connection.

[0025] As a further description of the above technical solution:

[0026] The outer side of the extrusion ring is fixedly connected to one end of the cleaning hanging point of the thick round steel pipe, and the outer side of the fixing column is fixedly connected to the inside of the curtain wall.

[0027] Through the above technical solution, one end of the thick round steel pipe cleaning hanging point is connected to the extrusion ring. During installation, it slides towards the fixed column along with the sliding column. The extrusion ring extrudes the sealing ring, and the fixed column is fixed inside the curtain wall, providing stable support for the entire dismantling mechanism. This ensures that the thick round steel pipe cleaning hanging point can be installed firmly, facilitating subsequent curtain wall cleaning work.

[0028] As a further description of the above technical solution:

[0029] One side of the extrusion ring is slidably connected to the inside of the sealing shell, and the bottom of the thick fireproof rock wool is slidably connected to the top of the curtain wall;

[0030] Through the above technical solution, the extrusion ring slides into the sealing shell to compress the sealing ring, achieving a tight connection and seal. The bottom of the thick fireproof rock wool is slidably installed along the top of the curtain wall, filling specific positions of the curtain wall. In the event of a fire, it effectively blocks the spread of heat and fire, providing protection for building safety.

[0031] This utility model has the following beneficial effects:

[0032] 1. In this utility model, by combining aluminum single panels with aluminum alloy angle brackets, hot-dip galvanized steel tubes, foam rod sealant, hot-dip galvanized angle steel, and thick fireproof rock wool, the flexibility and adaptability of the hanging point structure are improved, which can meet the installation requirements of different cleaning equipment, simplify the structure of the mobile hanging point, reduce installation and maintenance costs, enhance the load-bearing capacity and safety of the hanging point structure, and effectively avoid the risk of falling off or breaking.

[0033] 2. In this utility model, the thick round steel pipe cleaning hanging point is combined with a sliding column, the sliding column with a slot, the slot with a limiting block, the limiting block with a fixing column, the fixing column with a sealing shell, the sealing shell with a spring, and the spring with a sealing ring. This allows for the disassembly or sealing installation of the thick round steel pipe cleaning hanging point without tools. The thick round steel pipe cleaning hanging point, along with the sliding column and other components, can be operated by hand without tools. This saves time and improves efficiency in terms of convenience, meets the needs of various working conditions in terms of adaptability, reduces tool and labor costs in terms of economy, and avoids the risks of tool use and protects the internal structure in terms of safety. The advantages are significant. Attached Figure Description

[0034] Figure 1 This is a three-dimensional schematic diagram of a building curtain wall cleaning hanging point structure proposed in this utility model;

[0035] Figure 2 This is a structural diagram of an aluminum panel for a building curtain wall cleaning hanging point structure proposed in this utility model;

[0036] Figure 3 for Figure 2 Enlarged view of point A in the middle;

[0037] Figure 4 This is a schematic diagram of the structure of a thick round steel pipe cleaning hanging point for a building curtain wall, as proposed in this utility model.

[0038] Figure 5 for Figure 4 Enlarged view of point B in the middle.

[0039] Legend:

[0040] 1. Curtain wall; 2. Connection mechanism; 21. Aluminum single panel; 22. Hot-dip galvanized steel tube 1; 23. Aluminum alloy angle bracket; 24. Hot-dip galvanized steel tube 2; 25. Foam rod sealant; 26. Lighting components; 261. Aluminum alloy light trough; 262. Lighting fixture; 263. Aluminum alloy light trough cover; 27. Hot-dip galvanized angle steel; 28. Thick fireproof rock wool; 3. Disassembly mechanism; 31. Thick round steel pipe cleaning hanging point; 32. Sliding column; 33. Card slot; 34. Extrusion ring; 35. Fixed column; 36. Limiting block; 37. Sealing shell; 38. Spring; 39. Sealing ring. Detailed Implementation

[0041] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0042] Reference Figures 1 to 3 This utility model provides an embodiment of a building curtain wall cleaning hanging point structure, including a curtain wall 1. The curtain wall 1 serves as the exterior facade enclosure structure of a building, not only decorating the building's appearance but also providing a certain degree of protection and isolation for the building's interior space. A connecting mechanism 2 is slidably connected to the outside of the curtain wall 1. The connecting mechanism 2 can flexibly adjust its relative position to the curtain wall 1, facilitating the subsequent installation of various components and adapting to different architectural design requirements. A disassembly mechanism 3 is fixedly connected inside the curtain wall 1. The connecting mechanism 2 includes an aluminum single panel 21. The aluminum single panel 21 is a key component constituting the outer surface of the curtain wall 1, and its flatness and installation accuracy directly affect the overall aesthetics of the curtain wall 1.

[0043] The outer side of the aluminum panel 21 is fixedly connected with a hot-dip galvanized steel tube 22. The hot-dip galvanized steel tube 22, which is an auxiliary installation bracket, can enhance the stability of the connection between the aluminum panel 21 and other structures, ensuring that the aluminum panel 21 will not shift or loosen during long-term use. The outer side of the aluminum panel 21 is slidably connected with an aluminum alloy corner bracket 23. The aluminum alloy corner bracket 23 has good adaptability and can be flexibly slid to a suitable position on the outer side of the aluminum panel 21 and then fixed. It is used to precisely adjust the installation angle of the aluminum panel 21, so that the splicing of the curtain wall 1 is more fitting. The outer side of the aluminum panel 21 is fixedly connected with a hot-dip galvanized steel tube 24. The hot-dip galvanized steel tube 24 provides reliable support for the aluminum panel 21, ensuring that the aluminum panel 21 is structurally stable when subjected to external forces and will not affect the performance of the curtain wall 1 due to deformation.

[0044] The aluminum single panel 21 is internally connected with foam rod sealant 25. After the foam rod sealant 25 is slidably installed inside the aluminum single panel 21, it can effectively fill the gaps and play a role in waterproofing, dustproofing and sound insulation, thereby improving the overall sealing performance of the curtain wall 1. The aluminum single panel 21 is externally connected with hot-dip galvanized angle steel 27. The hot-dip galvanized angle steel 27 further strengthens the external support of the aluminum single panel 21 and works in synergy with the hot-dip galvanized steel tube 24 to enhance the stability of the aluminum single panel 21 in the structure of the curtain wall 1.

[0045] Thick fireproof rock wool 28 is fixedly connected inside the aluminum single panel 21. The thick fireproof rock wool 28 can significantly improve the fire resistance of the curtain wall 1 and effectively block heat transfer in the event of a fire, thus buying more evacuation time for the interior of the building. The bottom of the thick fireproof rock wool 28 is slidably connected to the top of the curtain wall 1. This connection method facilitates the installation and adjustment of the thick fireproof rock wool 28, ensuring that it fits tightly to the top of the curtain wall 1 and achieves the best fireproof and heat insulation effect. Lighting components 26 are slidably connected to the outside of the aluminum single panel 21. The lighting components 26 can be slidably installed to different positions on the outside of the aluminum single panel 21 according to actual needs, to meet the lighting needs of different areas around the curtain wall 1.

[0046] Specifically, the curtain wall 1, as the building facade, serves decorative, protective, and isolation functions. The working principle of its external connecting mechanism 2 is as follows: the aluminum single panel 21 is a key external surface component; the hot-dip galvanized steel tube 22 enhances its connection stability with other structures; the aluminum alloy angle bracket 23 can flexibly adjust the installation angle of the aluminum single panel 21, making the curtain wall 1 fit together; the hot-dip galvanized steel tube 24 and the hot-dip galvanized angle steel 27 work together to provide reliable support for the aluminum single panel 21, ensuring structural stability; the foam rod sealant 25 fills the gaps in the aluminum single panel 21, improving the overall sealing performance; the thick fireproof rock wool 28 slides on the top of the curtain wall 1, enhancing the fire resistance of the curtain wall 1; the lighting components 26 can slide on the outside of the aluminum single panel 21 to meet the lighting needs of different areas. All components work together to meet the functional requirements of the curtain wall 1 in terms of aesthetics, structural stability, waterproofing, dustproofing, fireproofing, and lighting.

[0047] The lighting component 26 includes an aluminum alloy light trough 261, which serves as a supporting component for the luminaire 262. Its design structure allows it to slide flexibly on the outside of the aluminum panel 21, enabling precise adjustment of its position according to actual lighting needs. The outer side of the aluminum alloy light trough 261 is slidably connected to the outer side of the aluminum panel 21. This connection method allows the aluminum alloy light trough 261 to slide easily along the surface of the aluminum panel 21, facilitating quick and easy positioning during installation to achieve lighting coverage of specific areas.

[0048] The aluminum alloy light trough 261 has a sliding connection to a light fixture 262 inside. The light fixture 262 can slide smoothly inside the aluminum alloy light trough 261, which makes it convenient for installers to adjust the specific position of the light fixture 262 according to actual needs and ensure that the lighting effect reaches the best state. The aluminum alloy light trough 261 has a rotating connection to an aluminum alloy light trough cover 263 inside. The aluminum alloy light trough cover 263 can rotate flexibly. When the light fixture 262 needs maintenance or replacement, it can be opened conveniently. When it is closed during daily use, it can effectively protect the light fixture 262 from the influence of external factors such as dust and moisture, and extend the service life of the light fixture 262.

[0049] Specifically, the aluminum alloy light trough 261 can slide flexibly on the outside of the aluminum single panel 21, making it easy to position according to lighting needs to cover specific areas. The light fixture 262 can slide smoothly inside the aluminum alloy light trough 261, making it convenient for installers to adjust the position to achieve the best lighting effect. The aluminum alloy light trough cover 263 is rotatably connected to the aluminum alloy light trough 261, and can be easily opened when the light fixture 262 needs maintenance or replacement. When closed in daily life, it can effectively protect the light fixture 262 from dust and moisture intrusion, thereby extending the service life of the light fixture 262.

[0050] Reference Figure 1 , Figure 4 and Figure 5 The disassembly mechanism 3 includes a thick round steel pipe cleaning hanger 31, which is used to support the cleaning equipment and provide a reliable connection point for the curtain wall 1 cleaning operation. One end of the thick round steel pipe cleaning hanger 31 is fixedly connected to a sliding column 32. The stable connection between the sliding column 32 and the thick round steel pipe cleaning hanger 31 ensures that the two will not easily separate during operation, thus ensuring the stability of subsequent actions. An extrusion ring 34 is fixedly connected inside the sliding column 32. The extrusion ring 34 plays a key role in sealing and fastening inside the sliding column 32 and participates in the coordination of the entire connection and disassembly action.

[0051] The sliding column 32 has multiple slots 33 inside. The design of the slots 33 provides a sliding and fixing track for the limiting block 36, which enables the connection between the sliding column 32 and the fixed column 35. The fixed column 35 is slidably connected inside the sliding column 32. The sliding cooperation between the fixed column 35 and the sliding column 32 provides an operating basis for the disassembly and installation of the thick round steel pipe cleaning hanging point 31. The fixed column 35 provides a stable support foundation for the entire structure. The outside of the fixed column 35 is fixedly connected to the inside of the curtain wall 1. This fixing method ensures the tight integration of the entire disassembly mechanism 3 and the curtain wall 1 structure, so that the thick round steel pipe cleaning hanging point 31 will not be affected by factors such as the vibration of the curtain wall 1 during use.

[0052] Multiple limiting blocks 36 are fixedly connected to the outside of the fixed column 35. The firm connection between the limiting blocks 36 and the fixed column 35 enables them to function within the slot 33, thereby limiting and adjusting the position of the sliding column 32. The outside of the limiting blocks 36 is slidably connected inside the slot 33. By sliding within the slot 33, the limiting blocks 36 can fix or release the sliding column 32 at different positions according to operational requirements, thereby realizing the disassembly and installation of the thick round steel pipe cleaning hanging point 31.

[0053] A sealing shell 37 is fixedly connected inside the fixed column 35. The sealing shell 37 protects and positions the internal spring 38 and sealing ring 39, ensuring the stable operation of the sealing structure. One side of the compression ring 34 is slidably connected inside the sealing shell 37. During the sliding process, the compression ring 34 can compress the sealing ring 39 to adjust the sealing effect. Multiple springs 38 are fixedly connected inside the sealing shell 37. The springs 38 provide elastic force inside the sealing shell 37. After the thick round steel pipe cleaning hanging point 31 is installed in place, its elastic force pushes the sealing ring 39 to enhance the sealing and connection effect.

[0054] A sealing ring 39 is slidably connected inside the sealing shell 37. The sealing ring 39 slides inside the sealing shell 37 and works in conjunction with the compression ring 34 to effectively prevent dust, moisture, etc. from entering the internal structure and protect the entire disassembly mechanism 3. The inner side of the compression ring 34 is slidably connected to the outer side of the sealing ring 39. This connection method allows the compression ring 34 to accurately apply pressure to the sealing ring 39. With the cooperation of the spring 38, a tight sealing connection is achieved. The other end of the spring 38 is fixedly connected to the inner side of the sealing ring 39. The connection between the spring 38 and the sealing ring 39 ensures that after the thick round steel pipe cleaning hanging point 31 is installed, the spring 38 can generate a continuous force on the compression ring 34 through the sealing ring 39 to ensure a tight connection. The outer side of the compression ring 34 slides on the outer side of the sealing shell 37 and is fixedly connected to one end of the thick round steel pipe cleaning hanging point 31. This connection makes the thick round steel pipe cleaning hanging point 31 and the compression ring 34 form a whole and participate in the action of the disassembly mechanism 3 together.

[0055] Specifically, the working principle of the disassembly mechanism 3 is as follows: the thick round steel pipe cleaning hanger 31 is used to support the cleaning equipment, and the sliding column 32 at one end is stably connected to it. The sliding column 32 has a compression ring 34 inside, and the slot 33 inside cooperates with the limiting block 36 on the outside of the fixed column 35. The limiting block 36 slides in the slot 33 to realize the disassembly and installation of the thick round steel pipe cleaning hanger 31. The fixed column 35 is fixed inside the curtain wall 1 to provide support for the whole. The sealing shell 37 inside the fixed column 35 protects the spring 38 and the sealing ring 39. During installation, the compression ring 34 slides inside and outside the sealing shell 37 to compress the sealing ring 39. The spring 38 provides elastic force to push the sealing ring 39, enhancing the sealing and connection effect and preventing dust and moisture from entering. The compression ring 34 is connected to the thick round steel pipe cleaning hanger 31 to form a whole, ensuring that the thick round steel pipe cleaning hanger 31 is stable during use and is not affected by the vibration of the curtain wall 1.

[0056] Working principle: When workers need to install aluminum single panel 21 on the outside of curtain wall 1, they can install aluminum single panel 21 with bolts. When lighting is needed, aluminum alloy light trough 261 can be connected to the outside of aluminum single panel 21 with bolts. Then, the light fixture 262 is installed inside the aluminum alloy light trough 261. When lighting is needed, the aluminum alloy light trough cover 263 can be opened, and then the light fixture 262 can be turned on to provide lighting.

[0057] When it is necessary to disassemble the cleaning hanger 31 of the thick round steel pipe for cleaning, the sliding column 32 connected to one end of the cleaning hanger 31 can be rotated. This will cause the multiple limiting blocks 36 connected to the outside of the fixed column 35 to disengage from the inside of the slot 33. At this time, the sliding column 32 can be removed from the outside of the fixed column 35. After the cleaning of the cleaning hanger 31 of the thick round steel pipe is completed, the sliding column 32 can be slid back to the outside of the fixed column 35. This will cause the internal connection of the sliding column 32 to be removed. The compression ring 34 compresses the sealing ring 39 inside the fixed post 35. Multiple springs 38 are connected to the rear side of the sealing ring 39. When the limiting block 36 slides completely into the slot 33, the sliding post 32 can be rotated so that the limiting block 36 rotates to the corner of the slot 33. At this time, the sliding post 32 can be released. Then, the multiple springs 38 will push the sealing ring 39 outward, and the sealing ring 39 will push the compression ring 34 outward, so that the limiting block 36 is more tightly connected inside the slot 33.

[0058] Finally, it should be noted that the above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Although the present utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.

Claims

1. A building curtain wall cleaning hanger point structure comprising a curtain wall (1), characterized in that: The curtain wall (1) is slidably connected to the outside of the curtain wall (1) and is fixedly connected to the inside of the curtain wall (1) by a disassembly mechanism (3). The connecting mechanism (2) includes an aluminum single panel (21), a hot-dip galvanized steel tube 1 (22) is fixedly connected to the outside of the aluminum single panel (21), an aluminum alloy angle bracket (23) is slidably connected to the outside of the aluminum single panel (21), a hot-dip galvanized steel tube 2 (24) is fixedly connected to the outside of the aluminum single panel (21), a foam rod sealant (25) is slidably connected to the inside of the aluminum single panel (21), a hot-dip galvanized angle steel (27) is slidably connected to the outside of the aluminum single panel (21), thick fireproof rock wool (28) is fixedly connected to the inside of the aluminum single panel (21), and a lighting component (26) is slidably connected to the outside of the aluminum single panel (21).

2. The cleaning hanging point structure of a building curtain wall according to claim 1, characterized in that: The lighting assembly (26) includes an aluminum alloy light trough (261), the outer side of which is slidably connected to the outer side of the aluminum single panel (21), a lamp (262) is slidably connected inside the aluminum alloy light trough (261), and an aluminum alloy light trough cover (263) is rotatably connected inside the aluminum alloy light trough (261).

3. The cleaning hanging point structure of a building curtain wall according to claim 1, characterized in that: The disassembly mechanism (3) includes a thick round steel pipe cleaning hanging point (31), one end of which is fixedly connected to a sliding column (32), a fixed column (35) is slidably connected inside the sliding column (32), a plurality of limiting blocks (36) are fixedly connected to the outside of the fixed column (35), a sealing shell (37) is fixedly connected inside the fixed column (35), a sealing ring (39) is slidably connected inside the sealing shell (37), and a compression ring (34) is fixedly connected inside the sliding column (32).

4. The cleaning hanging point structure of a building curtain wall according to claim 3, characterized in that: The sliding column (32) has multiple slots (33) inside, and the outer side of the limiting block (36) is slidably connected to the inside of the slots (33).

5. The cleaning hanging point structure of a building curtain wall according to claim 3, characterized in that: Multiple springs (38) are fixedly connected inside the sealing shell (37), and the other end of the springs (38) is fixedly connected to the inside of the sealing ring (39).

6. The cleaning hanging point structure of a building curtain wall according to claim 3, characterized in that: The outer side of the compression ring (34) slides on the outer side of the sealing shell (37), and the inner side of the compression ring (34) slides on the outer side of the sealing ring (39).

7. The cleaning hanging point structure of a building curtain wall according to claim 3, characterized in that: The outer side of the extrusion ring (34) is fixedly connected to one end of the cleaning hanging point (31) of the thick round steel pipe, and the outer side of the fixing column (35) is fixedly connected to the inside of the curtain wall (1).

8. The cleaning hanging point structure of a building curtain wall according to claim 3, characterized in that: One side of the compression ring (34) is slidably connected to the inside of the sealing shell (37), and the bottom of the thick fireproof rock wool (28) is slidably connected to the top of the curtain wall (1).