Portable tower glass installation structure
By combining hot-dip galvanized steel sheets and stainless steel bolts, the problem of time-consuming tower glass installation was solved, enabling convenient glass replacement and structural stability, and enhancing wind and earthquake resistance.
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
- 2025-05-07
- Publication Date
- 2026-06-19
AI Technical Summary
The existing glass installation structure for tower buildings is time-consuming to install, maintain, and replace glass, which cannot meet the usage requirements.
Using hot-dip galvanized steel sheets as the basic components, combined with stainless steel bolts, aluminum panels, angle steel, stainless steel railing posts, and ultra-clear tempered laminated glass, the glass is securely installed and easily replaced through a sealing design and the use of an L-shaped fixing base plate.
It improves the stability of glass installation and maintenance efficiency, reduces the replacement time of individual glass panes, and enhances the durability and resistance to external forces of the structure.
Smart Images

Figure CN224379192U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of glass installation technology, and in particular to a convenient tower glass installation structure. Background Technology
[0002] A tower refers to a tall building with a tower-like appearance, possessing a unique architectural style and functional purpose. A convenient tower glass installation structure is a device used for tower glass installation, designed to improve installation efficiency, reduce installation difficulty, and enhance installation safety.
[0003] A search revealed Chinese Patent Publication No. CN210797999U, which discloses an all-glass curtain wall installation structure. This structure solves the problems of exposed connection structures and short lifespans between curtain wall glass and the top of building exterior walls in existing technologies. The key technical points are: it includes several horizontally spaced beams erected on the outer wall of the tower's exterior top; installation beams connect the beams; installation channel steel is installed on the side of the installation beams away from the tower's exterior wall; a protective cover plate is fixedly installed above the beams; the protective cover plate extends to the outer wall of the tower and the installation channel steel on both sides; the two sides of the protective cover plate are folded downwards to form flanges and are fixedly connected to the inner side of the tower's exterior wall or the installation channel steel; the bottom end of the flange on the outer side of the installation channel steel is lower than the bottom end of the installation channel steel. This solution allows the top of the curtain wall glass to be installed inside the installation channel steel, with a protective cover plate on top, effectively enhancing the protective capabilities at the top of the curtain wall glass installation structure and further ensuring safety. However, existing glass requires a long time for installation, maintenance, and replacement, which cannot meet usage requirements. Utility Model Content
[0004] To overcome the above shortcomings, this utility model provides a convenient tower glass installation structure, which aims to improve the problem that the existing glass requires a long time to install, maintain and replace, and cannot meet the needs of use.
[0005] To achieve the above objectives, this utility model adopts the following technical solution: a convenient tower glass installation structure, comprising multiple hot-dip galvanized steel plates, with multiple hot-dip galvanized angle steels (I) equidistantly installed on the left side of the outer wall of each hot-dip galvanized steel plate, and multiple stainless steel bolts (I) installed on the outer wall of each hot-dip galvanized angle steel (I). A carbon-coated aluminum panel is installed on the top of each hot-dip galvanized angle steel (I), and galvanized angle steel (II) is installed in the upper middle part of the outer wall of each hot-dip galvanized angle steel (I). A double stainless steel railing post (I) is installed on the top of the carbon-coated aluminum panel (I). A stainless steel plate (I) is installed in the upper middle part of the outer wall of each double stainless steel railing post (I). Multiple stainless steel bolts (II) are threadedly connected at equal intervals to the outer wall of each stainless steel plate (I). A stainless steel handrail is installed on the top of each stainless steel plate (I). A rubber pad is installed on the side of the stainless steel handrail adjacent to the outer wall of the stainless steel plate (I). Multiple double stainless steel plate railing posts 2 are equidistantly installed on the left side of the outer wall of the first railing post. The outer wall of each double stainless steel plate railing post 2 is fitted with ultra-clear tempered laminated glass. An anodized aluminum alloy base is installed at the bottom of each double stainless steel plate railing post 2. A fluorocarbon-coated aluminum alloy cap is installed on the outer wall of the anodized aluminum alloy base. Joints are provided on the outer walls of multiple stainless steel handrails. A stainless steel plate 2 is installed on the adjacent side of the outer wall of the first double stainless steel plate railing post. An 8mm thick rubber block is installed at the bottom of the first double stainless steel plate railing post. A 5mm thick galvanized bent steel channel is installed on the outer wall of the ultra-clear tempered laminated glass. Multiple galvanized embedded parts are equidistantly installed at the bottom of the 5mm thick galvanized bent steel channel. Foam sealant is applied to the side of the stainless steel handrail adjacent to the outer wall of the ultra-clear tempered laminated glass.
[0006] Through the above technical solution: hot-dip galvanized steel sheet serves as the basic component, possessing excellent corrosion resistance through hot-dip galvanizing, providing stable support for the entire installation structure. Hot-dip galvanized angle steel is installed equidistantly on the left side of the hot-dip galvanized steel sheet and fixed with stainless steel bolts to ensure a firm connection. Carbon-coated aluminum panels are installed on top of the hot-dip galvanized angle steel for protection. Galvanized angle steel is installed in the upper middle part of the outer wall of the hot-dip galvanized angle steel, further enhancing the stability and load-bearing capacity of the structure. Double stainless steel railing posts are installed on top of the carbon-coated aluminum panels, and stainless steel plates are installed in the upper middle part of the outer wall, fixed with stainless steel bolts. Stainless steel handrails are installed on top of stainless steel plates, and rubber pads are installed between the stainless steel handrails and stainless steel plates for buffering and sealing. Multiple double stainless steel railing posts are installed equidistantly on the left side of the double stainless steel railing posts, providing support for the ultra-clear tempered laminated glass. The ultra-clear tempered laminated glass is installed on the double stainless steel railing posts. The outer wall is secured at its bottom with 5mm thick galvanized bent steel channels and galvanized embedded parts, making the glass installation more stable. The 5mm thick galvanized bent steel channels also provide some protection and positioning for the glass. Anodized aluminum alloy bases are installed at the bottom of the two stainless steel railing posts. Fluorocarbon-coated aluminum alloy caps are placed on the outer wall of the anodized aluminum alloy bases to protect them. 8mm thick rubber blocks are installed at the bottom of the first double stainless steel railing post, providing cushioning and shock absorption. Foam sealant is applied to the side adjacent to the stainless steel handrail and the ultra-clear tempered laminated glass, as well as at the joints of multiple stainless steel handrails, to seal and waterproof the structure, preventing rainwater from seeping into the interior. This sealing design not only improves the durability of the structure but also allows for selective replacement of any single glass panel by removing the corresponding stainless steel bolts during maintenance, without affecting other parts, thus effectively shortening the maintenance time for each glass panel.
[0007] As a further description of the above technical solution:
[0008] The bottom of the hot-dip galvanized steel sheet is fitted with an L-shaped fixed base plate.
[0009] The above technical solution involves an L-shaped fixed base plate installed at the bottom of the hot-dip galvanized steel sheet. This plate can achieve a large-area close fit with the supporting structure below, evenly and efficiently distributing the weight of the hot-dip galvanized steel sheet from the glass, railings, and other components above. This effectively prevents structural damage caused by excessive local pressure, thereby enhancing the horizontal displacement resistance of the hot-dip galvanized steel sheet. Even when subjected to strong winds or earthquakes, the hot-dip galvanized steel sheet and the installation structure can be firmly fixed in the predetermined position without displacement or damage.
[0010] As a further description of the above technical solution:
[0011] The top of the L-shaped fixed base plate is connected with multiple fixing bolts at equal intervals.
[0012] The above technical solution, using the L-shaped fixing bolts on the top of the fixed base plate, facilitates the disassembly and installation of the hot-dip galvanized steel sheet.
[0013] As a further description of the above technical solution:
[0014] Multiple connecting plates are equidistantly installed on the front side of the outer wall of the L-shaped fixed base plate.
[0015] The above technical solution enables the connecting plate to facilitate the rotation and installation of the L-shaped fixed base plate by the staff.
[0016] As a further description of the above technical solution:
[0017] The outer wall of the connecting plate is threaded with multiple rotating bolts at equal intervals.
[0018] The above technical solution allows for easy disassembly and installation of the connecting plate by workers, enabling the plate to be used.
[0019] As a further description of the above technical solution:
[0020] The bottom of the hot-dip galvanized steel sheet is fixedly connected with multiple locking blocks at equal intervals.
[0021] The above technical solution enables the snap-fit block to facilitate the installation of hot-dip galvanized steel sheets.
[0022] As a further description of the above technical solution:
[0023] The bottom of the locking block is fixedly connected to a fixed base.
[0024] The above technical solution involves a fixed base that is fixedly connected to the bottom of the snap-fit block, which can reinforce the hot-dip galvanized steel plate.
[0025] As a further description of the above technical solution:
[0026] A reinforcing plate is installed on the outer wall of the L-shaped fixed base plate, and the other side of the outer wall of the reinforcing plate is fixedly connected to the outer wall of the fixed base.
[0027] Through the above technical solution, the reinforcing plate can strengthen the connection between the L-shaped fixed base plate and the fixed base.
[0028] This utility model has the following beneficial effects:
[0029] 1. In this utility model, hot-dip galvanized steel plates provide corrosion resistance, angle steel and stainless steel bolts ensure a stable connection, aluminum panels and angle steel enhance structural stability, stainless steel railing posts and handrails are fixed with bolts to provide buffer sealing, ultra-clear tempered laminated glass is supported by stainless steel posts, galvanized steel channels and embedded parts ensure the glass is stable, aluminum alloy bases and covers provide protection, rubber blocks provide cushioning and shock absorption, and foam rod sealant provides waterproof sealing, improving durability and facilitating glass maintenance and replacement. This avoids the problem that existing glass requires a long time to install, maintain and replace, and cannot meet usage requirements.
[0030] 2. In this utility model, the weight is distributed and transferred through the L-shaped fixed base plate at the bottom, preventing damage caused by excessive local pressure. This enhances the horizontal displacement resistance of the hot-dip galvanized steel plate. Even when subjected to strong winds or earthquakes, the hot-dip galvanized steel plate and the installation structure can be firmly fixed in the predetermined position without displacement or damage. Attached Figure Description
[0031] Figure 1 This is a schematic diagram of a convenient tower glass installation structure proposed in this utility model;
[0032] Figure 2 This is a partial structural exploded view of a convenient tower glass installation structure proposed in this utility model;
[0033] Figure 3 This is a cross-sectional view of a convenient tower glass installation structure proposed in this utility model;
[0034] Figure 4 This is a partial structural illustration of a convenient tower glass installation structure proposed in this utility model;
[0035] Figure 5 This is a partial exploded view of a convenient tower glass installation structure proposed in this utility model;
[0036] Figure 6 This is a partial structural diagram of a convenient tower glass installation structure proposed in this utility model.
[0037] Legend:
[0038] 1. Hot-dip galvanized steel sheet; 2. Hot-dip galvanized angle steel (one type); 3. Stainless steel bolt (one type); 4. Carbon-coated aluminum single panel; 5. Galvanized angle steel (two types); 6. Double stainless steel balustrade post (one type); 7. Stainless steel plate (one type); 8. Stainless steel bolt (two types); 9. Rubber pad; 10. Stainless steel handrail; 11. Foam rod sealant; 12. Double stainless steel balustrade post (two types); 13. Ultra-clear tempered laminated glass; 14. Anodized aluminum alloy base; 15. Fluorocarbon-coated aluminum alloy buckle cover; 16. Joint; 17. 8mm stainless steel plate (two types); 18. 8mm thick rubber block; 19. Galvanized embedded parts; 20. 5mm thick galvanized bent steel channel; 21. Fixing bolt; 22. Connecting plate; 23. Rotating bolt; 24. Clamping block; 25. Fixed base; 26. L-shaped fixed base plate; 27. Reinforcing plate. Detailed Implementation
[0039] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings. 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.
[0040] Reference Figure 1 , Figure 2 and Figure 3This utility model provides an embodiment of a convenient tower glass installation structure, comprising multiple hot-dip galvanized steel plates 1, multiple hot-dip galvanized angle steels 2 equidistantly installed on the left side of the outer wall of the hot-dip galvanized steel plates 1, multiple stainless steel bolts 3 installed on the outer wall of the hot-dip galvanized angle steels 2, carbon-coated aluminum panels 4 installed on the top of the hot-dip galvanized angle steels 2, galvanized angle steels 5 installed in the upper middle part of the outer wall of the hot-dip galvanized angle steels 2, and double stainless steel balustrade posts 6 installed on the top of the carbon-coated aluminum panels 4. A stainless steel plate 7 is installed on the upper part of the outer wall. Multiple stainless steel bolts 8 are threaded at equal intervals on the outer wall of the stainless steel plate 7. A stainless steel handrail 10 is installed on the top of the stainless steel plate 7. A rubber pad 9 is installed on the side of the stainless steel handrail 10 adjacent to the outer wall of the stainless steel plate 7. Multiple double stainless steel plate railing posts 12 are installed at equal intervals on the left side of the outer wall of the double stainless steel plate railing posts 16. Ultra-clear tempered laminated glass 13 is installed on the outer wall of the double stainless steel plate railing posts 12. The bottom of the double stainless steel plate railing posts 12... An anodized aluminum alloy base 14 is installed at the end, and the outer wall of the anodized aluminum alloy base 14 is provided with a fluorocarbon-coated aluminum alloy buckle cover 15. Multiple stainless steel handrails 10 have seams 16 on their outer walls. An 8mm thick stainless steel plate 17 is installed on the adjacent side of the outer wall of the double stainless steel plate railing post 16. An 8mm thick rubber block 18 is installed at the bottom of the double stainless steel plate railing post 16. A 5mm thick galvanized bent steel channel 20 is installed on the outer wall of the ultra-clear tempered laminated glass 13. The bottom of the 5mm thick galvanized bent steel channel 20 is equidistant from each other. Multiple galvanized embedded parts 19 are installed. Foam rod sealant 11 is provided on the side adjacent to the outer wall of the stainless steel handrail 10 and the ultra-white tempered laminated glass 13. Multiple fixing bolts 21 are equidistantly threaded on the top of the L-shaped fixed base plate 26. The fixing bolts 21 on the top of the L-shaped fixed base plate 26 can facilitate the disassembly and installation of the hot-dip galvanized steel plate 1. Multiple connecting rotating plates 22 are equidistantly installed on the front side of the outer wall of the L-shaped fixed base plate 26. The connecting rotating plates 22 can facilitate the workers to rotate and install the L-shaped fixed base plate 26.
[0041] Specifically, hot-dip galvanized steel plate 1 serves as the foundation component. Through hot-dip galvanizing, it possesses excellent corrosion resistance, providing stable support for the entire installation structure. Hot-dip galvanized angle steel 2 is equidistantly installed on the left side of hot-dip galvanized steel plate 1 and fixed with stainless steel bolts 3 to ensure a firm connection. Carbon-coated aluminum single panel 4 is installed on top of hot-dip galvanized angle steel 2, providing protection. Galvanized angle steel 5 is installed in the upper middle part of the outer wall of hot-dip galvanized angle steel 2, further enhancing the stability and load-bearing capacity of the structure. Double stainless steel balustrade posts 6 are installed on top of carbon-coated aluminum single panel 4, and stainless steel plates 7 are installed in the upper middle part of the outer wall. The stainless steel handrail 10 is fixed to the top of the stainless steel plate 7 by stainless steel bolts 28. Rubber pads 9 are installed between the stainless steel handrail 10 and the stainless steel plate 7 to provide cushioning and sealing. Multiple double stainless steel plate railing posts 212 are equidistantly installed on the left side of the double stainless steel plate railing post 6 to support the ultra-clear tempered laminated glass 13. The ultra-clear tempered laminated glass 13 is installed on the outer wall of the double stainless steel plate railing post 212, and its bottom is fixed by 5mm thick galvanized bent steel channels 20 and galvanized embedded parts 19, making the glass installation more stable. The groove 20 provides some protection and positioning for the glass. Anodized aluminum alloy base 14 is installed at the bottom of the double stainless steel railing post 12. Fluorocarbon-coated aluminum alloy cap 15 is installed on the outer wall of the anodized aluminum alloy base 14 to protect the base. An 8mm thick rubber block 18 is installed at the bottom of the double stainless steel railing post 6 to provide cushioning and shock absorption. Foam sealant 11 is applied to the side adjacent to the stainless steel handrail 10 and the ultra-clear tempered laminated glass 13, as well as at the outer wall joints 16 of multiple stainless steel handrails 10, to provide sealing and waterproofing, preventing rainwater from seeping into the structure. This sealing design not only improves the durability of the structure, but also allows for selective replacement of any single piece of glass by removing the corresponding stainless steel bolts during maintenance if a glass panel is found to be damaged, without affecting other parts. The top of the L-shaped fixed base plate 26 is connected with multiple fixing bolts 21 at equal intervals. The fixing bolts 21 at the top of the L-shaped fixed base plate 26 facilitate the disassembly and installation of the hot-dip galvanized steel plate 1. Multiple connecting rotating plates 22 are installed at equal intervals on the front side of the outer wall of the L-shaped fixed base plate 26. The connecting rotating plates 22 facilitate the rotation and installation of the L-shaped fixed base plate 26 by the workers.
[0042] Reference Figure 1 , Figure 4 and Figure 5 The bottom of the hot-dip galvanized steel plate 1 is equipped with an L-shaped fixed base plate 26. The outer wall of the connecting plate 22 is threaded with multiple rotating bolts 23 at equal intervals. The rotating bolts 23 on the outer wall of the connecting plate 22 facilitate the disassembly and installation of the connecting plate 22 by the workers. The bottom of the hot-dip galvanized steel plate 1 is fixedly connected with multiple locking blocks 24 at equal intervals. The locking blocks 24 facilitate the installation of the hot-dip galvanized steel plate 1.
[0043] Specifically, the L-shaped fixed base plate 26 installed at the bottom of the hot-dip galvanized steel plate 1 can achieve a large-area tight fit with the supporting structure below, evenly and efficiently distributing the weight of the hot-dip galvanized steel plate 1 from the glass, railings and other components above, effectively preventing structural damage due to excessive local pressure. The outer wall of the connecting plate 22 is equidistantly threaded with multiple rotating bolts 23, which facilitate the disassembly and installation of the connecting plate 22 by workers. The bottom of the hot-dip galvanized steel plate 1 is equidistantly fixed with multiple locking blocks 24, which facilitate the installation of the hot-dip galvanized steel plate 1.
[0044] Reference Figure 1 , Figure 2 and Figure 6 The bottom of the snap-fit block 24 is fixedly connected to the fixed base 25. The fixed base 25 fixedly connected to the bottom of the snap-fit block 24 can play the role of reinforcing the hot-dip galvanized steel plate 1. The outer wall of the L-shaped fixed base plate 26 is equipped with a reinforcing plate 27. The other side of the outer wall of the reinforcing plate 27 is fixedly connected to the outer wall of the fixed base 25. The reinforcing plate 27 can play the role of strengthening the connection between the L-shaped fixed base plate 26 and the fixed base 25.
[0045] Specifically, the bottom of the snap-fit block 24 is fixedly connected to a fixed base 25. The fixed base 25, which is fixedly connected to the bottom of the snap-fit block 24, can serve to reinforce the hot-dip galvanized steel plate 1. A reinforcing plate 27 is installed on the outer wall of the L-shaped fixed base plate 26. The other side of the outer wall of the reinforcing plate 27 is fixedly connected to the outer wall of the fixed base 25. The reinforcing plate 27 can serve to strengthen the connection between the L-shaped fixed base plate 26 and the fixed base 25.
[0046] Working Principle: Hot-dip galvanized steel plate 1 serves as the foundation component. Through hot-dip galvanizing, it possesses excellent corrosion resistance, providing stable support for the entire installation structure. Hot-dip galvanized angle steel 12 is equidistantly installed on the left side of hot-dip galvanized steel plate 1 and fixed with stainless steel bolts 3 to ensure a firm connection. Carbon-coated aluminum single panel 4 is installed on top of hot-dip galvanized angle steel 12, providing protection. Galvanized angle steel 25 is installed on the upper middle part of the outer wall of hot-dip galvanized angle steel 12, further enhancing the stability and load-bearing capacity of the structure. Double stainless steel plate railing posts 6 are installed on carbon-coated aluminum single panel 4. At the top, stainless steel plate 7 is installed in the upper middle part of the outer wall and fixed by stainless steel bolts 8. Stainless steel handrail 10 is installed on top of stainless steel plate 7. Rubber pad 9 is installed between stainless steel handrail 10 and stainless steel plate 7 to provide cushioning and sealing. Multiple double stainless steel plate railing posts 12 are equidistantly installed on the left side of double stainless steel plate railing post 6 to support ultra-clear tempered laminated glass 13. Ultra-clear tempered laminated glass 13 is installed on the outer wall of double stainless steel plate railing post 12, and its bottom is supported by 5mm thick galvanized bent steel channel 20 and galvanized steel channel 20. The zinc embedded part 19 provides a more stable glass installation, while the 5mm thick galvanized bent steel channel 20 provides some protection and positioning for the glass. The anodized aluminum alloy base 14 is installed at the bottom of the double stainless steel railing post 2 12. The fluorocarbon sprayed aluminum alloy buckle 15 is set on the outer wall of the anodized aluminum alloy base 14 to protect the base. The 8mm thick rubber block 18 is installed at the bottom of the double stainless steel railing post 1 6 to buffer and reduce shock. The foam rod sealant 11 is set on the side adjacent to the stainless steel handrail 10 and the ultra-clear tempered laminated glass 13, as well as at the outer wall joints 16 of multiple stainless steel handrails 10, to seal and waterproof, preventing rainwater from seeping into the structure. This sealing design not only improves the durability of the structure, but also allows for selective replacement of any single piece of glass by removing the corresponding stainless steel bolts during maintenance if a piece of glass is found to be damaged, without affecting other parts. This effectively shortens the operation time for a single piece of glass, thus avoiding the problem that the installation, maintenance, and replacement of existing glass require a long time and cannot meet the usage requirements.
[0047] By installing an L-shaped fixed base plate 26 at the bottom of the hot-dip galvanized steel plate 1, it can achieve a large-area tight fit with the supporting structure below, and evenly and efficiently distribute and transfer the weight of the hot-dip galvanized steel plate 1 from the glass, railing and other components above, effectively preventing structural damage due to excessive local pressure, thereby enhancing the horizontal displacement resistance of the hot-dip galvanized steel plate 1. Even when encountering external impacts such as strong winds and earthquakes, it can ensure that the hot-dip galvanized steel plate 1 and the installation structure are firmly fixed in the predetermined position without displacement or damage.
[0048] 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 convenient tower glass installation structure, comprising multiple hot-dip galvanized steel plates (1), characterized in that: Multiple hot-dip galvanized angle steels (2) are installed at equal intervals on the left side of the outer wall of the hot-dip galvanized steel plate (1). Multiple stainless steel bolts (3) are installed on the outer wall of the hot-dip galvanized angle steels (2). Carbon-coated aluminum single plate (4) is installed on the top of the hot-dip galvanized angle steels (2). Galvanized angle steels (5) are installed in the upper middle part of the outer wall of the hot-dip galvanized angle steels (2). Double stainless steel railing posts (6) are installed on the top of the carbon-coated aluminum single plate (4). Stainless steel plates (7) are installed in the upper middle part of the outer wall of the double stainless steel railing posts (6). Multiple stainless steel bolts (8) are threaded at equal intervals on the outer wall of the stainless steel plates (7). Stainless steel handrails (10) are installed on the top of the stainless steel plates (7). Rubber pads (9) are installed on the side of the stainless steel handrails (10) adjacent to the outer wall of the stainless steel plates (7). Multiple double stainless steel railing posts (12) are installed at equal intervals on the left side of the outer wall of the double stainless steel railing posts (6). The outer wall of the double stainless steel balustrade post 2 (12) is fitted with ultra-clear tempered laminated glass (13). The bottom end of the double stainless steel balustrade post 2 (12) is fitted with an anodized aluminum alloy base (14). The outer wall of the anodized aluminum alloy base (14) is fitted with a fluorocarbon-coated aluminum alloy cap (15). The outer walls of the multiple stainless steel handrails (10) are all provided with seams (16). The outer wall of the double stainless steel balustrade post 1 (6) is fitted with 8 Stainless steel plate two (17), the bottom end of the double stainless steel plate railing post one (6) is equipped with an 8mm thick rubber block (18), the outer wall of the ultra-white tempered laminated glass (13) is equipped with a 5mm thick galvanized bent steel channel (20), the bottom of the 5mm thick galvanized bent steel channel (20) is equipped with multiple galvanized embedded parts (19) at equal intervals, and the stainless steel handrail (10) is provided with foam rod sealant (11) on the side adjacent to the outer wall of the ultra-white tempered laminated glass (13).
2. The convenient tower glass installation structure according to claim 1, characterized in that: The bottom of the hot-dip galvanized steel sheet (1) is fitted with an L-shaped fixed base plate (26).
3. The convenient tower glass installation structure according to claim 2, characterized in that: The top of the L-shaped fixed base plate (26) is connected with multiple fixing bolts (21) at equal intervals.
4. The convenient tower glass installation structure according to claim 2, characterized in that: Multiple connecting plates (22) are equidistantly installed on the front side of the outer wall of the L-shaped fixed base plate (26).
5. The convenient tower glass installation structure according to claim 4, characterized in that: The outer wall of the connecting plate (22) is threaded with multiple rotating bolts (23) at equal intervals.
6. The convenient tower glass installation structure according to claim 1, characterized in that: The bottom of the hot-dip galvanized steel sheet (1) is fixedly connected with multiple locking blocks (24) at equal intervals.
7. A convenient tower glass installation structure according to claim 6, characterized in that: The bottom of the locking block (24) is fixedly connected to a fixed base (25).
8. The convenient tower glass installation structure according to claim 2, characterized in that: The outer wall of the L-shaped fixed base plate (26) is equipped with a reinforcing plate (27), and the other side of the outer wall of the reinforcing plate (27) is fixedly connected to the outer wall of the fixed base (25).