A glass curtain wall mounting bracket
By designing a glass curtain wall mounting bracket that includes a base, adjustment components, and load-bearing components, and utilizing horizontal and vertical adjustment mechanisms and limiting parts, the problems of poor stability and inconvenient adjustment of existing bracket structures have been solved, achieving efficient and precise glass curtain wall positioning and stable support.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- CHINA CONSTR FIFTH ENG DIV CORP LTD
- Filing Date
- 2025-07-16
- Publication Date
- 2026-06-16
AI Technical Summary
Existing glass curtain wall installation brackets suffer from poor structural stability, inconvenient adjustment, and high costs, making it difficult to achieve efficient and precise positioning and stable support.
The design incorporates a base, adjustment components, and load-bearing elements. It achieves precise positioning of the glass curtain wall through horizontal and vertical adjustment mechanisms, while limiting components and leveling bolts ensure stability and flexible adjustment.
It enables flexible adjustment and precise positioning of glass curtain walls, improves installation flexibility and stability, reduces costs, and meets the needs of different installation scenarios.
Smart Images

Figure CN224363510U_ABST
Abstract
Description
Technical Field
[0001] This application relates to the field of building engineering technology, and in particular to a glass curtain wall mounting bracket. Background Technology
[0002] Curtain walls, as non-load-bearing exterior wall cladding structures, are widely used in modern architecture. Glass curtain walls, with their aesthetically pleasing and innovative characteristics, have become a common choice for building wall decoration and are one of the prominent features of modernist high-rise buildings. During the installation of glass curtain walls, the mounting brackets play a crucial role.
[0003] Currently, various types of glass curtain wall installation brackets exist on the market. Some brackets have relatively simple structural designs, using a cross-shaped structure of horizontal and vertical axes for connection, such as the common light steel keel bracket. The vertical keels serve as the main support structure, and the horizontal keels have grooves at intervals that match the cross-section of the vertical keels. The vertical keels are then inserted and fixed into the corresponding grooves. While this assembly method is simple, it suffers from poor stability and insufficient strength, making it unsuitable for building projects with high requirements for curtain wall stability. Furthermore, some existing brackets cannot be flexibly and conveniently adjusted in both the horizontal and vertical directions when adjusting the installation position of the glass curtain wall, making it difficult to accurately adjust the position of the glass curtain wall during installation, thus affecting installation quality and efficiency.
[0004] To address the problems mentioned in the background art, a glass curtain wall mounting bracket has been invented. Utility Model Content
[0005] The purpose of this utility model is to provide a glass curtain wall installation bracket to solve the problems of poor structural stability, inconvenient adjustment, high cost and single function of existing glass curtain wall installation brackets, so as to achieve efficient, accurate positioning and stable support in the glass curtain wall installation process.
[0006] This application provides a glass curtain wall mounting bracket, which adopts the following technical solution: it includes a base, an adjustment component, and a support member. The adjustment component includes a horizontal adjustment mechanism and a vertical adjustment mechanism, which are used to adjust the position of the support member in the horizontal and vertical directions, respectively. The support member is connected to the adjustment component, and a slot is provided on the support member for installing the glass curtain wall.
[0007] Optionally, the lateral adjustment mechanism includes an adjustment seat, in which a first sliding channel is provided, and the carrier can slide within the first sliding channel. A limiting component is provided within the first sliding channel to limit the position of the carrier.
[0008] Optionally, the limiting component includes a sliding block, which is slidably disposed in a first sliding channel and fixedly connected to a carrier. Multiple slots are respectively opened on both sides of the first sliding channel, and a card block that can be inserted into the card slot is respectively provided on both sides of the sliding block. A connecting spring is provided between the card block and the sliding block.
[0009] Optionally, the longitudinal adjustment mechanism includes a second sliding channel formed on the base, with wedge blocks respectively provided on both sides of the second sliding channel, and inclined surfaces respectively provided at both ends of the adjustment seat. The wedge blocks can slide and engage with the inclined surfaces. A rotatable bidirectional screw is provided on the base, with both sides of the bidirectional screw threadedly connected to the wedge blocks.
[0010] Optionally, threaded holes are provided at the four corners of the base, and leveling bolts are threadedly connected to the base.
[0011] In summary, this application includes the following beneficial technical effects:
[0012] 1. Flexible adjustment: By setting up horizontal and vertical adjustment mechanisms, the position of the load-bearing components can be adjusted in the horizontal and vertical directions respectively, which can meet the needs of precise adjustment of the glass curtain wall position in different installation scenarios, greatly improving the flexibility and accuracy of installation.
[0013] 2. Stable Positioning: In the lateral adjustment mechanism, multiple slots are provided on both sides of the first sliding channel, and the carrier is positioned by a limiting component. The sliding block in the limiting component is fixedly connected to the carrier, and the locking block can be inserted into the slot through a connecting spring, so that the carrier can be stably positioned after the position is adjusted, preventing displacement during installation and ensuring the stability of the installation process.
[0014] 3. Simple and efficient structure: The longitudinal adjustment mechanism achieves longitudinal movement of the adjustment seat by opening a second sliding groove on the base, utilizing the sliding fit between the wedge block and the inclined surfaces at both ends of the adjustment seat, and the threaded connection between the bidirectional screw and the wedge block. The structure is ingenious and simple, easy to operate, and can efficiently achieve longitudinal position adjustment.
[0015] 4. Easy leveling: Threaded holes are opened at the four corners of the base, and leveling bolts are threaded to them, which makes it easy to level the bracket on different installation base surfaces, further improving the adaptability and stability of the bracket installation. Attached Figure Description
[0016] Figure 1 This is a schematic diagram of the overall structure of the device. Figure I ;
[0017] Figure 2 This is a schematic diagram of the overall structure of the device. Figure II ;
[0018] Figure 3 This is the front view of the device;
[0019] Figure 4 This is a cross-sectional view of the overall structure of the device. Figure I ;
[0020] Figure 5 This is a top view of the device;
[0021] Figure 6 This is a cross-sectional view of the overall structure of the device. Figure II ;
[0022] The components include: 1. base, 2. adjustment assembly, 3. bearing component, 4. horizontal adjustment mechanism, 5. vertical adjustment mechanism, 6. slot, 7. adjustment seat, 8. first sliding channel, 9. limiting component, 10. sliding block, 11. slot, 12. locking block, 13. connecting spring, 14. second sliding channel, 15. wedge block, 16. bidirectional screw, and 17. leveling bolt. Detailed Implementation
[0023] The present application will be further described in detail below with reference to the accompanying drawings. In the description of the present utility model, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing the present utility model and 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 utility model.
[0024] Reference Figure 1 One embodiment shown is as follows: The glass curtain wall mounting bracket consists of a base 1, an adjusting assembly 2, and a support member 3. The base 1 is located at the bottom of the entire bracket, serving to support and fix the entire device. The adjusting assembly 2 is located above the base 1, wherein the horizontal adjusting mechanism 4 and the vertical adjusting mechanism 5 cooperate with each other to adjust the position of the support member 3 in different directions. The support member 3 is mounted on the adjusting assembly 2, and the slot 6 on the support member 3 has an upward-opening structure for placing the glass curtain wall. In this embodiment, the base 1 is a rectangular flat plate structure, the adjusting assembly 2 is fixed to the upper surface of the base 1 by bolts or other means, and the support member 3 is connected to the adjusting assembly 2 by welding or bolts or other secure methods. This connection method ensures the stability between the components, enabling the entire bracket to work stably when installing the glass curtain wall.
[0025] The implementation principle of the above embodiment is as follows: When installing the glass curtain wall, the base 1 is first fixed in a suitable installation position. When it is necessary to adjust the horizontal position of the glass curtain wall, the horizontal adjustment mechanism 4 is used for adjustment; when it is necessary to adjust the vertical position, the vertical adjustment mechanism 5 is used. Through the coordinated action of these two mechanisms, the support member 3 is adjusted to a suitable position, and then the glass curtain wall is placed in the groove 6 of the support member 3 to complete the initial positioning, providing a foundation for subsequent precise installation.
[0026] Reference Figure 1 , Figure 4 One embodiment shown is as follows: the lateral adjustment mechanism 4 has an adjustment seat 7 as its main structure. The adjustment seat 7 is a cuboid block structure with a first sliding channel 8 formed along its length. The first sliding channel 8 is horizontally positioned and extends through the adjustment seat 7 at both ends. The bottom shape of the support member 3 is adapted to the first sliding channel 8, allowing it to slide smoothly left and right within the first sliding channel 8, thereby changing the position of the support member 3 in the lateral direction. A limiting component 9 is disposed within the first sliding channel 8, cooperating with the support member 3 and the first sliding channel 8 to provide a limiting function. In this embodiment, the adjustment seat 7 is fixed above the longitudinal adjustment mechanism 5 by welding or bolting, and the support member 3 can move flexibly on the adjustment seat 7 through its sliding connection with the first sliding channel 8.
[0027] The implementation principle of the above embodiment is as follows: When the position of the support member 3 needs to be adjusted laterally, the support member 3 slides within the first sliding groove 8, causing the limiting component 9 to move synchronously. After the support member 3 moves to the appropriate position, the limiting component 9 restricts the support member 3 from continuing to slide, thereby fixing the position of the support member 3 in the lateral direction and ensuring the accuracy of the glass curtain wall installation position in the lateral direction.
[0028] Reference Figure 5 , Figure 6One embodiment is shown whereby the sliding block 10 in the limiting component 9 is a cuboid block structure, its shape adapted to the internal space of the first sliding channel 8, allowing it to slide smoothly left and right within the first sliding channel 8. The sliding block 10 is fixedly connected to the carrier 3 by welding, bolting, or integral molding, ensuring that the sliding block 10 moves synchronously with the carrier 3 when it moves. Multiple slots 11 are spaced apart along the length of the left and right side walls of the first sliding channel 8, each slot 11 being a rectangular recess. A locking block 12 is installed on each of the left and right sides of the sliding block 10. The locking block 12 is a block structure, with one end connected to the sliding block 10 and the other end inserted into the slots 11 on both sides of the first sliding channel 8. The top of the locking block 12 extends out of the first sliding channel 8 and has a pushing part for easy use. The slots 11 are evenly distributed on both sides of the first sliding channel 8, providing the limiting component 9 with multiple selectable fixed positions, allowing the carrier 3 to be stably limited in different lateral positions. A connecting spring 13 is provided between the locking block 12 and the sliding block 10. One end of the connecting spring 13 is fixed in a groove on the side of the sliding block 10, and the other end is fixedly connected to the locking block 12. In this embodiment, the sliding block 10 slides tightly and smoothly in the first sliding groove 8, ensuring the stability of the carrier 3 when it moves. By pushing the pushing part on the locking block 12, the locking block 12 can slide out of the locking groove 11. When the carrier 3 moves the sliding block 10 to a suitable position, the locking block 12 can be smoothly inserted into the corresponding locking groove 11 under the push of the connecting spring 13, thereby limiting the position of the carrier 3.
[0029] The implementation principle of the above embodiment is as follows: When the carrier 3 drives the sliding block 10 to slide within the first sliding groove 8, the locking block 12 moves along with the sliding block 10. At this time, the connecting spring 13 is in a stretched or compressed state. When the carrier 3 reaches the target position, the connecting spring 13 restores its deformation, pushing the locking block 12 into the slot 11. The locking block 12 and the slot 11 fit tightly together, restricting the movement of the sliding block 10 and the carrier 3, thereby stably fixing the carrier 3 in this lateral position. When it is necessary to adjust the position of the carrier 3 again, the external force overcomes the elasticity of the connecting spring 13, causing the locking block 12 to disengage from the slot 11, and the carrier 3 can continue to slide and adjust.
[0030] Reference Figure 4One embodiment is shown as follows: The longitudinal adjustment mechanism 5 is based on a base 1, and a second sliding groove 14 is formed on the base 1 along its length direction. The second sliding groove 14 is horizontally arranged. Wedge blocks 15 are placed on the left and right sides of the second sliding groove 14, respectively. The bottom surface of the wedge blocks 15 is in contact with the bottom of the second sliding groove 14, allowing them to slide along its length within the second sliding groove 14. An adjustment seat 7 is located above the wedge blocks 15. The bottom surfaces of the left and right ends of the adjustment seat 7 are respectively provided with inclined surfaces, which correspond to the inclined surfaces of the wedge blocks 15, enabling a sliding fit. A bidirectional screw 16 is also installed on the base 1. The bidirectional screw 16 is horizontally arranged and passes through the base 1. The left and right sides of the bidirectional screw 16 are respectively threadedly connected to the wedge blocks 15. In this embodiment, the width of the second sliding groove 14 is adapted to the bottom width of the wedge blocks 15, ensuring the stability of the wedge blocks 15 sliding within the groove. The adjusting seat 7 is tightly fitted with the inclined surface of the wedge block 15 through the inclined surfaces at both ends, so that the adjusting seat 7 can move stably when the wedge block 15 moves. The bidirectional screw 16 is mounted on the base 1 through bearings and other components, and can rotate flexibly. Its thread is precisely matched with the threaded hole of the wedge block 15, ensuring that the bidirectional screw 16 can effectively drive the wedge block 15 to move when it rotates.
[0031] The implementation principle of the above embodiment is as follows: When the bidirectional screw 16 is rotated, since the threads on both sides of the bidirectional screw 16 rotate in opposite directions, its rotation will cause the wedge blocks 15 on both sides to move towards or away from each other in the second sliding channel 14. During the movement of the wedge blocks 15, their inclined surfaces interact with the inclined surfaces at both ends of the adjusting seat 7, pushing the adjusting seat 7 to rise or fall in the longitudinal direction, thereby realizing the position adjustment of the bearing member 3 connected to the adjusting seat 7 in the longitudinal direction, so as to meet the requirements for longitudinal position adjustment during the installation of the glass curtain wall.
[0032] Reference Figure 2 , Figure 3 , Figure 5 One embodiment is shown: the base 1 is a rectangular flat plate structure with threaded holes vertically drilled at its four corners, penetrating the upper and lower surfaces of the base 1. The leveling bolt 17 is a common screw structure, with its threaded end connected to the threaded hole on the base 1. The head of the leveling bolt 17 is located above the base 1 for easy rotation by the operator. In this embodiment, the specifications of the threaded hole match the thread specifications of the leveling bolt 17, ensuring a tight connection and smooth rotation. After the leveling bolt 17 is installed on the base 1 via the threaded connection, its length extending beyond the bottom surface of the base 1 can be adjusted by rotating the leveling bolt 17. By adjusting its extension length, the height difference between the support points of the mounting bracket can be changed, thereby precisely adjusting the tilt of the entire device to ensure that the glass curtain wall installation achieves the designed levelness or tilt angle.
[0033] The implementation principle of the above embodiment is as follows: When installing the glass curtain wall mounting bracket, the base 1 is placed on the surface of the mounting foundation. Using tools such as a level, the operator rotates the leveling bolts 17 at the four corners of the base 1. When the leveling bolts 17 are rotated clockwise, their length extending beyond the bottom surface of the base 1 increases; when rotated counterclockwise, the length extending decreases. By adjusting the extension length of the four leveling bolts 17, the height of the four corners of the base 1 is changed, thereby ensuring that the base 1 is in a horizontal state, providing a stable mounting foundation for the entire glass curtain wall mounting bracket, and ensuring the accuracy and stability of the subsequent glass curtain wall installation.
[0034] The working principle of this device is as follows: During installation, the bracket is first leveled using the leveling bolts 17 at the four corners of the base 1. During lateral adjustment, the bearing member 3 drives the sliding block 10 to slide in the first sliding groove 8 of the adjusting seat 7. The locking blocks 12 on both sides of the sliding block 10 are inserted into the locking slot 11 under the action of the connecting spring 13 to achieve limiting. External force can push the locking blocks 12 out of the locking slot 11 to continue sliding. During longitudinal adjustment, the bidirectional screw 16 on the base 1 is rotated, causing the wedge blocks 15 on both sides of the second sliding groove 14 to move towards or away from each other. The wedge blocks 15 cooperate with the inclined surfaces at both ends of the adjusting seat 7, pushing the adjusting seat 7 to move longitudinally, thus adjusting the longitudinal position of the bearing member 3. After adjustment, the glass curtain wall is installed in the groove 6 of the bearing member 3, completing the installation. The entire process achieves precise installation of the glass curtain wall through the coordinated action of the lateral and longitudinal adjustment mechanisms 5.
[0035] The working principle of this device has been explained through the above embodiments. These embodiments only illustrate several implementation methods of this utility model, and while the descriptions are relatively specific and detailed, they should not be construed as limiting the scope of the utility model patent. It should be noted that those skilled in the art can make various modifications and improvements without departing from the concept of this utility model, and these all fall within the protection scope of this utility model. Therefore, the protection scope of this utility model patent should be determined by the appended claims.
Claims
1. A glass curtain wall mounting bracket, characterized in that: It includes a base (1), an adjustment component (2) and a support component (3). The adjustment component (2) includes a horizontal adjustment mechanism (4) and a vertical adjustment mechanism (5). The horizontal adjustment mechanism (4) and the vertical adjustment mechanism (5) are used to adjust the position of the support component (3) in the horizontal and vertical directions, respectively. The support component (3) is connected to the adjustment component (2). The support component (3) has a slot (6) for installing the glass curtain wall.
2. The glass curtain wall mounting bracket according to claim 1, characterized in that: The lateral adjustment mechanism (4) includes an adjustment seat (7), and a first sliding channel (8) is provided in the adjustment seat (7). The bearing member (3) can slide in the first sliding channel (8), and a limiting component (9) is provided in the first sliding channel (8) to limit the position of the bearing member (3).
3. A glass curtain wall mounting bracket according to claim 2, characterized in that: The limiting component (9) includes a sliding block (10), which is slidably disposed in the first sliding channel (8) and fixedly connected to the bearing (3). Multiple slots (11) are respectively opened on both sides of the first sliding channel (8). Card blocks (12) that can be inserted into the slots (11) are respectively provided on both sides of the sliding block (10). A connecting spring (13) is provided between the card blocks (12) and the sliding block (10).
4. A glass curtain wall mounting bracket according to claim 2, characterized in that: The longitudinal adjustment mechanism (5) includes a second sliding channel (14) opened on the base (1), and wedge blocks (15) are respectively provided on both sides of the second sliding channel (14). The two ends of the adjustment seat (7) are respectively provided with inclined surfaces. The wedge blocks (15) can slide and cooperate with the inclined surfaces. A rotatable bidirectional screw (16) is provided on the base (1). The two sides of the bidirectional screw (16) are respectively threaded to the wedge blocks (15).
5. A glass curtain wall mounting bracket according to claim 1, characterized in that: The base (1) has threaded holes at its four corners, and leveling bolts (17) are threaded onto the base (1).