A curtain wall installation positioning device
Through innovative design of the supporting columns, positioning beams and slider structure, the installation problem of the curtain wall was solved, achieving efficient and stable glass curtain wall positioning, and improving installation accuracy and sealing.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGDONG HUAGONG ENG CONSTR SUPERVISION CO LTD
- Filing Date
- 2025-07-07
- Publication Date
- 2026-06-30
AI Technical Summary
In the current curtain wall installation process, the hoisting method makes it difficult for the lower curtain wall to reach the bottom of the cross frame, affecting installation efficiency, cost and accuracy.
The structure employs load-bearing columns, positioning beams, and positioning sliders, combined with an H-shaped steel beam design. Through the sliding adjustment of the positioning sliders and the U-shaped notch design, along with rubber seats and sealing nuts, flexible positioning and stable installation of the glass curtain wall can be achieved.
It improves the efficiency and precision of curtain wall installation, enhances the stability and safety of the device, reduces the swaying and displacement of the glass curtain wall, extends its service life, and improves its sealing performance.
Smart Images

Figure CN224432047U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of curtain wall installation technology, and in particular relates to a curtain wall installation positioning device. Background Technology
[0002] Curtain walls, as lightweight wall structures with decorative effects commonly used in modern large and high-rise buildings, are typically installed on the outside of the main structure, covering its surface. They do not bear the forces exerted by the main structure and are hung like a curtain. Curtain walls are generally composed of panels such as glass, metal plates, stone slabs, and ceramic panels, as well as supporting structures such as aluminum beams and columns, steel structures, and glass ribs. They can have a certain degree of displacement relative to the main structure or possess a certain degree of deformation capacity, and belong to the building's external envelope or decorative structure.
[0003] During curtain wall installation, existing technologies suffer from a series of problems, including cumbersome installation processes. To address these issues, some improved curtain wall installation positioning devices have emerged on the market. For example, a curtain wall installation positioning device described in Chinese utility model patent document CN 219587252 U primarily uses a cross-shaped frame to provide basic positioning for the curtain wall, and then utilizes its own installation locking structure to fix four curtain walls arranged in a grid pattern. However, currently, it is common to use lifting equipment to hoist the curtain wall and transport it by lowering it from top to bottom. In this installation method, when installing and assembling the two lower curtain walls, it is difficult for the curtain wall to reach the bottom of the cross frame, leading to installation difficulties, affecting installation efficiency, increasing installation costs and construction difficulty, and also compromising the accuracy and quality of curtain wall installation.
[0004] Therefore, it is essential to invent a curtain wall installation and positioning device. Utility Model Content
[0005] To solve the above-mentioned technical problems, this utility model provides a curtain wall installation positioning device, including a supporting column, mounting holes, a positioning beam, a positioning slider, a glass curtain wall, positioning holes, fixing studs, a locking plate, a rubber seat, and a sealing nut. Several supporting columns, positioning beams, and glass curtain walls are provided. The supporting columns are fixedly connected to the curtain wall installation beam via connectors. Positioning sliders on each positioning beam are slidably mounted on two supporting columns. The connectors pass sequentially through the mounting holes of the supporting columns and positioning sliders, fixing the supporting columns and positioning sliders on the positioning beams together. The positioning holes of the glass curtain wall are inserted into the fixing studs on the positioning beams. The locking plate is mounted on the fixing studs and tightened with a sealing nut to fix the glass curtain wall in place. A rubber seat is provided on the locking plate.
[0006] Preferably, the load-bearing columns are arranged in parallel, and the load-bearing columns are H-shaped steel beam structures. Between every two load-bearing columns, several vertically distributed positioning beams are fixedly installed.
[0007] Preferably, the cross section of the positioning beam is "T" shaped, and each positioning beam is provided with four fixing studs. The four fixing studs are respectively located at the upper and lower ends of the positioning beam and are distributed accordingly.
[0008] Preferably, each of the positioning beams is provided with a corresponding positioning slider at both ends. The positioning slider and the supporting column are provided with corresponding mounting holes. When the positioning slider and the supporting column are not fixed together by a connector, the positioning slider is allowed to slide and adjust along the direction of the supporting column.
[0009] Preferably, the fixing studs provided on the positioning beam allow the positioning holes of the glass curtain wall to be inserted. The positioning holes are U-shaped notches located on one side of the included angle of the glass curtain wall. The two sides of the glass curtain wall are allowed to be restricted by the supporting columns on both sides, and the two sides of the glass curtain wall are slidably engaged with the supporting columns.
[0010] Preferably, the inner surface of the glass curtain wall is in close contact with the rubber seat provided on the inner side of the locking plate, and each locking plate has a corresponding rubber seat on the inner side of both ends, and the rubber seat has a cylindrical structure.
[0011] Preferably, the locking plate has through holes at both ends, corresponding to the center of the rubber seat, allowing the fixing studs to pass through. The fixing studs pass through the through holes and the rubber seat, and the glass curtain wall is restricted by the sealing nuts tightened on the fixing studs.
[0012] Preferably, the glass curtain wall between each pair of the supporting columns is fixed and restricted by a plurality of positioning beams, fixing studs, locking plates, rubber seats and sealing nuts, and the glass curtain wall between each pair of the supporting columns is vertically distributed.
[0013] Compared with the prior art, the present invention has the following beneficial effects:
[0014] The curtain wall installation positioning device of this utility model has a structure including a supporting column, a positioning beam, and a positioning slider. The positioning slider can slide on the supporting column, which allows the position of the positioning beam to be flexibly adjusted, facilitating the installation and positioning of the glass curtain wall. Compared with the prior art, the installation process is simpler and the installation efficiency is improved.
[0015] This utility model employs an H-shaped steel beam structure for its load-bearing columns. Several load-bearing columns are distributed in parallel, with several vertically distributed positioning beams fixedly installed between every two columns. This structural design enhances the stability and load-bearing capacity of the entire device, reliably securing the glass curtain wall and ensuring its robustness and safety after installation. Furthermore, the positioning beams have a T-shaped cross-section, and each beam is equipped with four fixing studs, correspondingly distributed at the upper and lower ends. This ensures more accurate positioning of the glass curtain wall, effectively preventing swaying or displacement after installation and improving the precision of the curtain wall installation.
[0016] The positioning holes of this utility model's glass curtain wall are U-shaped notches, located on one side of the included angle of the glass curtain wall, and the two sides of the glass curtain wall slide in conjunction with the supporting columns. This design makes the installation of the glass curtain wall more convenient, and the fact that the two sides of the glass curtain wall are restricted by the supporting columns further enhances the stability of the curtain wall installation. In addition, a rubber seat is provided on the locking plate, and the inner surface of the glass curtain wall is in close contact with the rubber seat. The rubber seat not only plays a role in buffering and shock absorption, reducing the impact of external factors on the glass curtain wall and extending its service life, but also improves the sealing of the glass curtain wall installation, preventing rainwater, dust, etc. from entering the interior of the curtain wall. Attached Figure Description
[0017] Figure 1 This is a schematic diagram of the exploded structure of a portion of this utility model.
[0018] Figure 2 This is a schematic diagram of the back structure of this utility model.
[0019] Figure 3 This is a schematic diagram of the overall structure of this utility model.
[0020] Figure 4 This is a utility model Figure 2 A magnified schematic diagram of the structure at point A.
[0021] In the picture:
[0022] 1. Support column; 2. Mounting hole; 3. Positioning beam; 4. Positioning slider; 5. Glass curtain wall; 6. Positioning hole; 7. Fixing stud; 8. Locking plate; 9. Rubber seat; 10. Sealing nut. Detailed Implementation
[0023] To enable those skilled in the art to better understand the present invention, the technical solutions in the embodiments of the present invention will be clearly and completely described below. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort should fall within the protection scope of the present invention.
[0024] In the description of the embodiments, it should be noted that the terms "upper," "lower," "inner," "outer," "front end," "rear end," "both ends," "one end," and "the other end," etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are used only for the convenience of describing the present invention and for simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance. In the description of the utility model, it should be noted that unless otherwise explicitly specified and limited, the terms "installed," "equipped with," "connected," etc., should be interpreted broadly. For example, "connection" can be a fixed connection, a detachable connection, or an integral connection; it can be a mechanical connection or an electrical connection; it can be a direct connection or an indirect connection through an intermediate medium; it can be a connection within two components. Those skilled in the art can understand the specific meaning of the above terms in the present utility model based on the specific circumstances.
[0025] As attached Figure 1 To be continued Figure 4 As shown:
[0026] This utility model provides a curtain wall installation positioning device, including a supporting column 1, mounting holes 2, positioning beams 3, positioning sliders 4, a glass curtain wall 5, positioning holes 6, fixing studs 7, locking plates 8, rubber seats 9, and sealing nuts 10. Several supporting columns 1, positioning beams 3, and glass curtain walls 5 are provided. The supporting columns 1 are fixedly connected to the curtain wall installation beams via connectors. Positioning sliders 4 on each positioning beam 3 are slidably mounted on two supporting columns 1. The connectors pass sequentially through the mounting holes 2 of the supporting columns 1 and positioning sliders 4, fixing the supporting columns 1 and the positioning sliders 4 on the positioning beams 3 together. The positioning holes 6 of the glass curtain wall 5 are inserted into the fixing studs 7 on the positioning beams 3. The locking plates 8 are mounted on the fixing studs 7 and tightened with sealing nuts 10, thus fixing the glass curtain wall 5 in place. Rubber seats 9 are provided on the locking plates 8.
[0027] Furthermore, several of the aforementioned load-bearing columns 1 are arranged in parallel. Each load-bearing column 1 is an H-beam structure, and several vertically distributed positioning beams 3 are fixedly installed between every two load-bearing columns 1. In actual curtain wall installation scenarios, the load-bearing columns 1 play a crucial supporting role. H-beams have excellent bending and compressive strength, capable of withstanding large loads. Their parallel distribution design provides a stable frame structure for the entire curtain wall installation positioning device, offering a solid foundation for the subsequent installation of other components. The load-bearing columns 1 are generally made of high-strength steel to ensure their strength and durability. Between every two load-bearing columns 1, the positioning beams 3 are vertically distributed and fixedly installed. The positioning beams 3 are typically made of aluminum alloy, a material that is lightweight and corrosion-resistant, effectively reducing the weight of the entire curtain wall structure.
[0028] Furthermore, the positioning beam 3 has a T-shaped cross-section, which increases its stability and load-bearing capacity. The horizontal portion of the T-shape provides a wider support surface for the glass curtain wall 5, while the vertical portion enhances the beam's bending resistance. The positioning beam 3 is typically extruded from aluminum alloy to ensure its shape and dimensional accuracy. Four fixing studs 7 are distributed at both the upper and lower ends of the positioning beam 3. The fixing studs 7 are generally made of stainless steel to prevent rust and corrosion. The fixing studs 7 are fixed to the positioning beam 3 by threaded connection or welding. During installation, it is essential to ensure the accurate positioning of the fixing studs 7, with the upper and lower fixing studs 7 strictly aligned, to guarantee the accurate installation and fixation of the glass curtain wall 5.
[0029] Furthermore, the positioning slider 4 is typically made of engineering plastic or copper alloy, possessing excellent wear resistance and sliding performance. The positioning slider 4 is installed at both ends of the positioning beam 3 and fixed to it by welding or bolting. Both the positioning slider 4 and the supporting column 1 have corresponding mounting holes 2, the size and precision of which must ensure that the connecting parts can pass through smoothly. When the position of the positioning beam 3 needs to be adjusted, the positioning slider 4 can slide along the direction of the supporting column 1 without being fixed to the supporting column 1 by the connecting parts. This design allows for flexible adjustment of the position of the positioning beam 3 during installation, improving installation accuracy and convenience.
[0030] Furthermore, the glass curtain wall 5 is generally made of tempered glass, which has high strength and good safety. The positioning hole 6 is designed as a "U" shaped notch, located on one side of the included angle of the glass curtain wall 5. This design allows the glass curtain wall 5 to easily engage with the fixing studs 7 on the positioning beam 3 during installation. When the glass curtain wall 5 is installed, its positioning hole 6 is inserted into the fixing stud 7 to achieve initial positioning. The two sides of the glass curtain wall 5 form a concave groove with the two side load-bearing columns 1 for sliding engagement, allowing the two sides of the glass curtain wall 5 to slide along the grooves of the load-bearing columns 1. This sliding engagement design facilitates the installation of the glass curtain wall 5.
[0031] Furthermore, cylindrical rubber seats 9 are provided on the inner sides of both ends of the locking plate 8. These rubber seats 9 are generally made of rubber and possess good elasticity and cushioning properties. After the glass curtain wall 5 is installed in place, the locking plate 8 is secured by fixing studs 7, at which point the inner surface of the glass curtain wall 5 is in close contact with the rubber seats 9. The rubber seats 9 serve two main functions: firstly, they act as a buffer, reducing direct collisions and friction between the glass curtain wall 5 and the locking plate 8, preventing damage to the glass curtain wall 5; secondly, the rubber seats 9 also act as a seal, preventing rainwater, dust, and other contaminants from entering the interior of the curtain wall.
[0032] Furthermore, the through hole on the locking plate 8 aligns with the center of the rubber seat 9, ensuring that the fixing stud 7 can pass through smoothly. After the fixing stud 7 passes through the through hole of the locking plate 8 and the rubber seat 9, the glass curtain wall 5 is fixed by tightening the sealing nut 10. The sealing nut 10 is generally made of stainless steel with a treated surface, providing good rust prevention and sealing performance. When tightening the sealing nut 10, care should be taken to apply moderate tightening force, ensuring that the glass curtain wall 5 is securely restrained without damaging the glass curtain wall 5 or the rubber seat 9 due to excessive force. This connection method allows the glass curtain wall 5 to be stably fixed to the positioning beam 3, ensuring the overall stability of the curtain wall.
[0033] Furthermore, between every two load-bearing columns 1, the glass curtain wall 5 is fixed and restrained by multiple positioning beams 3, fixing studs 7, locking plates 8, rubber seats 9, and sealing nuts 10. This fixing method allows the glass curtain wall 5 to be stably installed between the load-bearing columns 1. The glass curtain walls 5 between every two load-bearing columns 1 are vertically distributed, which conforms to the installation specifications and architectural aesthetic requirements of curtain walls. The vertically distributed glass curtain walls 5 not only ensure the neat and beautiful appearance of the building, but also improve the overall stability and waterproof performance of the curtain wall. During installation, it is necessary to ensure that each glass curtain wall 5 is vertically aligned, and the gaps between adjacent glass curtain wall 5 are uniform to ensure the overall quality of the curtain wall.
[0034] The installation process is as follows:
[0035] Installation of load-bearing columns 1: Several H-beam load-bearing columns 1, made of high-strength steel, are fixedly connected to the curtain wall mounting beams using connectors, and are arranged in parallel. This creates a stable frame structure, laying the foundation for the subsequent installation of components.
[0036] Preliminary positioning of the positioning beam 3: Install positioning sliders 4 at both ends of the positioning beam 3. The positioning sliders 4 are made of engineering plastic or copper alloy, possessing good wear resistance and sliding performance. When the positioning sliders 4 and the supporting column 1 are not fixed with connecting parts, the positioning sliders 4 can slide along the direction of the supporting column 1. Utilizing this characteristic, adjust the positioning beam 3 to a suitable position according to the actual installation requirements.
[0037] Fixing the positioning beam 3: After the position of the positioning beam 3 is determined, let the connector pass through the mounting holes 2 of the bearing column 1 and the positioning slider 4 in sequence, and fix the positioning slider 4 on the bearing column 1 and the positioning beam 3 together, so as to securely install the positioning beam 3 between the two bearing columns 1.
[0038] Preliminary installation of glass curtain wall 5: The glass curtain wall 5, generally made of tempered glass, is moved to the installation position using lifting equipment. The positioning holes 6 of the U-shaped notch on one side of the glass curtain wall 5 are inserted into the fixing studs 7 on the positioning beam 3 to achieve the initial positioning of the glass curtain wall 5. At the same time, the glass curtain wall 5 slides into the concave grooves of the supporting columns 1 on both sides, facilitating the adjustment of the position of the glass curtain wall 5.
[0039] Fixing the glass curtain wall 5: Assemble the locking plate 8 with the cylindrical rubber seat 9 onto the fixing stud 7, ensuring tight contact between the inner surface of the glass curtain wall 5 and the rubber seat 9. The rubber seat 9, made of rubber, provides cushioning and sealing. Then, tighten the stainless steel sealing nut 10 onto the fixing stud 7 to stably fix the glass curtain wall 5 onto the positioning beam 3.
[0040] Overall installation complete: Following the steps above, install multiple positioning beams 3 and glass curtain walls 5 between every two load-bearing columns 1, ensuring the glass curtain walls 5 are vertically distributed. During installation, ensure that each glass curtain wall 5 is vertically aligned and that the gaps between adjacent glass curtain walls 5 are uniform, thus completing the installation of the entire curtain wall.
[0041] Any technical solution that achieves the above-mentioned technical effects by utilizing the technical solution described in this utility model, or by designing a similar technical solution inspired by the technical solution described in this utility model, falls within the protection scope of this utility model.
Claims
1. A curtain wall installation positioning device, characterized in that, The system includes a support column (1), mounting holes (2), positioning beams (3), positioning sliders (4), a glass curtain wall (5), positioning holes (6), fixing studs (7), locking plates (8), rubber seats (9), and sealing nuts (10). Several support columns (1), positioning beams (3), and glass curtain walls (5) are provided. The support columns (1) are fixedly connected to the curtain wall mounting beams via connectors. Positioning sliders (4) on each positioning beam (3) are slidably mounted on two support columns (1). The connecting piece passes through the mounting holes (2) of the bearing column (1) and the positioning slider (4) in sequence, and fixes the bearing column (1) and the positioning slider (4) on the positioning beam (3) together; the positioning hole (6) of the glass curtain wall (5) is inserted into the fixing stud (7) of the positioning beam (3), the locking plate (8) is assembled on the fixing stud (7) and tightened with a sealing nut (10) to fix the glass curtain wall (5) in place, and a rubber seat (9) is provided on the locking plate (8).
2. The curtain wall installation positioning device as described in claim 1, characterized in that: Several of the load-bearing columns (1) are arranged in parallel. The load-bearing columns (1) are H-shaped steel beam structures. Several vertically distributed positioning beams (3) are fixedly installed between each pair of load-bearing columns (1).
3. The curtain wall installation positioning device as described in claim 2, characterized in that: The cross section of the positioning beam (3) is "T" shaped. Each positioning beam (3) is provided with four fixing studs (7). The four fixing studs (7) are respectively located at the upper and lower ends of the positioning beam (3) and are distributed accordingly.
4. The curtain wall installation positioning device as described in claim 3, characterized in that: Each of the positioning beams (3) is provided with a corresponding positioning slider (4) at both ends. The positioning slider (4) and the supporting column (1) are provided with corresponding mounting holes (2). When the positioning slider (4) and the supporting column (1) are not fixed together by the connecting piece, the positioning slider (4) is allowed to slide and adjust along the direction of the supporting column (1).
5. A curtain wall installation positioning device as described in claim 4, characterized in that: The fixing studs (7) provided on the positioning beam (3) allow the positioning holes (6) of the glass curtain wall (5) to be inserted. The positioning holes (6) are U-shaped notches located on one side of the included angle of the glass curtain wall (5). The two sides of the glass curtain wall (5) are allowed to be restricted by the supporting columns (1) on both sides. The two sides of the glass curtain wall (5) are slidably engaged with the supporting columns (1).
6. The curtain wall installation positioning device as described in claim 5, characterized in that: The inner surface of the glass curtain wall (5) is in close contact with the rubber seat (9) provided on the inner side of the locking plate (8). Each locking plate (8) has a corresponding rubber seat (9) on the inner side of both ends. The rubber seat (9) is a cylindrical structure.
7. A curtain wall installation positioning device as described in claim 6, characterized in that: Both ends of the locking plate (8) are provided with through holes that allow the fixing studs (7) to pass through, corresponding to the center of the rubber seat (9). The fixing studs (7) pass through the through holes and the rubber seat (9), and the glass curtain wall (5) is restricted by the sealing nuts (10) tightened on the fixing studs (7).