A special-shaped curtain wall plate mounting rack and a special-shaped curtain wall mounting method

Abstract

The application discloses a special-shaped curtain wall plate mounting rack and a using method thereof, which comprises a pre-embedded part embedded in the back of a plate body and a square steel fixed on a wall surface, a horizontal U-shaped steel is mounted on the front side of the square steel, a first adjusting part is mounted on the front side of the U-shaped steel, a second adjusting part is arranged at the end of the first adjusting part away from the U-shaped steel, a third adjusting part is slidably mounted on the upper surface of the second adjusting part, and the upper surface of the third adjusting part is connected with the pre-embedded part through a connecting part. When the curtain wall is installed, the first adjusting part, the second adjusting part and the third adjusting part can be flexibly adjusted according to actual conditions, the inclination angle and the installation position of the plate body are flexibly changed, the curtain wall can be adjusted according to actual construction conditions during installation, and the curtain wall is more in line with the modeling design of the wall surface.

Description

Technical Field

[0001] This invention relates to the field of architectural decoration, specifically to an irregularly shaped curtain wall panel mounting bracket and a method for installing the irregularly shaped curtain wall panels. Background Technology

[0002] As an indispensable decorative system in modern large-scale buildings, curtain walls are installed on the exterior walls of buildings to enhance their aesthetic appeal. Curtain walls generally consist of a supporting structure and a panel structure. Based on their panel structures, curtain walls can be categorized into glass curtain walls, metal curtain walls, and non-metal curtain walls. With the development of curtain walls, more and more different types have emerged, and the panel structures have become increasingly diverse. The development of irregularly shaped curtain walls is particularly prominent, as their unique shapes create a sophisticated atmosphere.

[0003] Currently, the installation of irregularly shaped curtain walls generally involves welding a square steel frame and a decorative surface, then fixing the curtain wall panels onto the decorative surface to create different overall shapes. However, this installation method has the following problems: 1. The decorative surface is pre-welded, and the curtain wall panels can only be fixed according to the decorative surface. If any unreasonable or inappropriate parts are found during installation, the angle and tilt of the curtain wall panels cannot be flexibly adjusted according to the actual situation. The only option is to either continue with the incorrect design or re-weld the decorative surface, resulting in an overly rigid installation. 2. Because the decorative surface is welded manually, human error is inevitable during the welding process. This makes it impossible to precisely control the weld shape at every point, leading to loose joints and uneven surfaces when the curtain wall panels are installed and spliced. Summary of the Invention

[0004] To address the shortcomings of existing technologies, this invention provides an irregularly shaped curtain wall panel installation frame and its usage method, which solves the problems of existing installation methods being unable to flexibly adjust the angle and tilt of the curtain wall panels according to actual conditions, only able to make do with the incorrect ones or re-weld the shaped surfaces, resulting in overly rigid installation; moreover, when installing and splicing curtain wall panels, problems such as loose splicing and rough splicing surfaces are prone to occur.

[0005] To achieve the above objectives, the present invention provides the following technical solution:

[0006] An irregularly shaped curtain wall panel mounting bracket includes an embedded part pre-embedded in the back of the panel body and square steel fixed to the wall surface. The square steel is arranged vertically at equal intervals. A horizontal U-shaped steel is installed on the front side of the square steel. A T-shaped first sliding groove with an opening on the front side is provided in the U-shaped steel. A horizontal first adjusting member is slidably installed in the first sliding groove. The first adjusting member is perpendicular to the U-shaped steel. A second adjusting member is provided at the end of the first adjusting member away from the U-shaped steel. A third adjusting member is slidably installed on the upper surface of the second adjusting member. The upper surface of the third adjusting member is connected to the embedded part through a connector.

[0007] Preferably, a fixing hole is provided on the inner side of the first chute, and a bolt for fixing connection with the square steel is provided in the fixing hole; in use, a drilling device is used to drill holes in the square steel corresponding to the fixing hole, and the U-shaped steel can be fixedly installed on the square steel by the cooperation of the bolt and the fixing hole.

[0008] Preferably, the first adjusting component includes a horizontally arranged outer tube and an inner rod. The inner end of the outer tube is provided with a T-shaped first slider that slides and engages with the first sliding groove. The outer tube has a plurality of equidistantly arranged adjusting holes, and the inner rod has a positioning hole that corresponds to and engages with the adjusting holes. An adjusting bolt is provided between the positioning hole and the adjusting hole. In use, the inner rod is inserted into the outer tube, and the position of the inner rod in the outer tube is adjusted according to actual needs, so that the positioning hole and the adjusting hole are engaged. The positioning hole and the adjusting hole are limited and fixed by the adjusting bolt, thereby adjusting and fixing the length of the first adjusting component.

[0009] Preferably, the second adjusting component includes a first adjusting block fixedly connected to the outer end of the inner rod. The upper surface of the first adjusting block is provided with a T-shaped second sliding groove. Horizontal guide grooves are provided through both sides of the interior of the second sliding groove. A T-shaped second slider is slidably installed in the second sliding groove, and the top of the second slider extends out of the second sliding groove. Fixing bolts extending out of the guide grooves are provided on both sides of the second slider. In use, the position of the second slider in the second sliding groove is adjusted according to actual needs. When the edges of two adjacent plate bodies are on the same plane, the nut is put on the fixing bolt and tightened, thereby fixing the second slider inside the second sliding groove, so that the connecting edges of the two plate bodies are on the same plane.

[0010] Preferably, the third adjusting member includes a second adjusting block fixedly connected to the top of the second slider. The top of the second adjusting block has a T-shaped third sliding groove. Mounting grooves are formed on both sides of the inner side of the third sliding groove. A sealing frame is provided at the opening of the mounting groove. A telescopic block is inserted through the sealing frame. A fixing spring is provided at the inner end of the telescopic block. A T-shaped third slider is slidably mounted in the third sliding groove, with the top of the third slider extending out of the third sliding groove. Mutually cooperating positioning teeth are provided on both sides of the third slider and at the outer end of the telescopic block. In a preferred embodiment, the plane of the positioning teeth is a right-angled triangle. With this structure, during use, the third slider is moved by the connecting piece. The mutual compression of the inclined surfaces of the positioning teeth overcomes the elasticity of the fixing spring, causing the telescopic block to move into the mounting groove. This causes the positioning teeth on the third slider to disengage from the positioning teeth on the telescopic block, allowing the third slider to move in one direction. When it reaches the appropriate position, the movement of the third slider is stopped, and at the same time, the fixing spring pushes the telescopic block outward until the positioning teeth on the telescopic block and the positioning teeth on the third slider are tightly engaged. The mutual compression of the right-angled surfaces of the positioning teeth prevents the third slider from retracting, thus limiting and fixing the third slider.

[0011] Preferably, the connector is a vertically arranged L-shaped structure, and the bottom of the connector is fixedly connected to the top of the third slider, and a horizontal threaded rod is provided on the inner side of the connector.

[0012] Preferably, the embedded part includes an embedded plate embedded inside the back side of the plate body, and the embedded plate is provided with an L-shaped plate extending out of the back side of the plate body. The L-shaped plate protects the horizontal plate and the vertical plate, and the vertical plate is provided with a threaded hole corresponding to the threaded rod. The vertical plate is fixedly connected to the connector by bolts.

[0013] A method for installing irregularly shaped curtain wall panels is also provided. This method uses an irregularly shaped curtain wall panel mounting frame, the structure of which includes embedded parts pre-embedded on the back of the panel body and square steel fixed to the wall surface, including the following steps:

[0014] S1: Fix the square steel bars to the wall surface at equal intervals using bolts, so that the square steel bars form a base surface;

[0015] S2: Install several horizontal U-shaped steel bars on the base surface with bolts, so that every two U-shaped steel bars correspond to one row of plate body;

[0016] S3: Assemble the first adjusting member, the second adjusting member, the third adjusting member, and the connecting member together, and connect them to the U-shaped steel through the first slider of the first adjusting member;

[0017] S4: Fix the embedded parts of the plate body to the connectors assembled in S3;

[0018] S5: By adjusting the first, second, and third adjusting components, the position of the panel body is adjusted so that the panel bodies are spliced ​​together, thus completing the installation of the irregular-shaped curtain wall panel.

[0019] This invention provides an irregularly shaped curtain wall panel mounting bracket and a method for installing the irregularly shaped curtain wall panel, which has the following advantages:

[0020] 1. When installing a curtain wall, the mounting bracket of the present invention can flexibly adjust the first adjusting component, the second adjusting component and the third adjusting component according to the actual situation, thereby flexibly changing the tilt angle and installation position of the panel body, so that the curtain wall shape can be adjusted according to the actual construction situation during the installation process, making it more in line with the wall surface design.

[0021] 2. The mounting bracket of the present invention can roughly adjust the distance between the board body and the base surface through the first adjusting component, so that the splicing edges between the board bodies are basically on the same plane. The second adjusting component can finely adjust the distance between the board body and the base surface, so that the splicing edges between the board bodies are on the same plane, allowing two adjacent board bodies to fit tightly together. The third adjusting component can adjust the horizontal position of the board body, so that two adjacent board bodies can fit tightly together, thereby making the splicing between the board bodies more neat and smooth. Attached Figure Description

[0022] Figure 1 This is a schematic diagram of the overall structure of an irregularly shaped curtain wall panel mounting frame according to the present invention.

[0023] Figure 2 for Figure 1 A schematic diagram of the internal structure.

[0024] Figure 3 This is a schematic diagram showing the connection between the square steel and the U-shaped steel in this invention.

[0025] Figure 4 This is an exploded view of the first adjusting member in this invention.

[0026] Figure 5 This is a schematic diagram of the appearance of the second adjusting member in this invention.

[0027] Figure 6 for Figure 5 A schematic diagram of the internal structure.

[0028] Figure 7 This is a schematic diagram showing the connection between the third adjusting member and the connecting member of the present invention.

[0029] Figure 8 This is a top view of the internal structure of the third adjusting member of the present invention.

[0030] Figure 9 This is a schematic diagram of the positioning teeth of the present invention.

[0031] Figure 10 This is a schematic diagram of the embedded part of the present invention.

[0032] Figure 11 This is a schematic diagram illustrating the installation and use of the present invention.

[0033] Figure 12 This is a schematic diagram of the overall installation of the irregularly shaped curtain wall.

[0034] In the picture:

[0035] 1. Square steel; 2. U-shaped steel; 201. First sliding groove; 202. Fixing hole; 3. First adjusting component; 301. Outer tube; 302. Inner rod; 303. First slider; 304. Adjusting hole; 305. Adjusting bolt; 306. Positioning hole; 4. Second adjusting component; 401. First adjusting block; 402. Second sliding groove; 403. Second slider; 404. Fixing bolt; 405. Guide groove; 5. Third adjusting component; 501. Second adjusting block; 502. Third sliding groove; 503. Mounting groove; 504. Third slider; 505. Fixing spring; 506. Telescopic block; 507. Positioning teeth; 508. Sealing frame; 6. Connecting component; 601. Threaded rod; 7. Embedded component; 701. Embedded plate; 702. L-shaped plate; 703. Threaded hole; 8. Plate body. Detailed Implementation

[0036] The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present invention without creative effort are within the scope of protection of the present invention.

[0037] Example 1

[0038] Please see Figure 1 and Figure 2This invention provides an irregularly shaped curtain wall panel mounting bracket, the structure of which includes a pre-embedded part 7 embedded in the back of the panel body 8 and a square steel 1 fixed to the wall. There are several square steel 1s arranged vertically at equal intervals. A horizontal U-shaped steel 2 is installed on the front side of the square steel 1. A T-shaped first sliding groove 201 with a front opening is provided in the U-shaped steel 2. A horizontal first adjusting part 3 is slidably installed in the first sliding groove 201. The first adjusting part 3 is perpendicular to the U-shaped steel 2. A second adjusting part 4 is provided at the end of the first adjusting part 3 away from the U-shaped steel 2. A third adjusting part 5 is slidably installed on the upper surface of the second adjusting part 4. The upper surface of the third adjusting part 5 is connected to the pre-embedded part 7 through a connecting part 6.

[0039] Please see Figure 3 The inner side of the first groove 201 is provided with a fixing hole 202, and a bolt for fixing and connecting the square steel 1 is provided in the fixing hole 202. In use, a drilling device is used to drill holes in the square steel 1 corresponding to the fixing hole 202. The U-shaped steel 2 can be fixedly installed on the square steel 1 by the cooperation of the bolt and the fixing hole 202.

[0040] Please see Figure 4 The first adjusting component 3 includes a horizontally arranged outer tube 301 and an inner rod 302. The inner end of the outer tube 301 is provided with a T-shaped first slider 303 that slides and engages with the first sliding groove 201. The outer tube 301 is provided with a plurality of equidistantly arranged adjusting holes 304. The inner rod 302 is provided with a positioning hole 306 that corresponds to and engages with the adjusting holes 304. An adjusting bolt 305 is provided between the positioning hole 306 and the adjusting hole 304.

[0041] In use, the inner rod 302 is inserted into the outer tube 301. The position of the inner rod 302 in the outer tube 301 is adjusted according to actual needs, and the positioning hole 306 and the adjustment hole 304 are matched accordingly. The positioning hole 306 and the adjustment hole 304 are limited and fixed by adjusting bolt 305, thereby adjusting and fixing the length of the first adjusting member 3. The distance between the plate body 8 and the base surface is further roughly adjusted so that the splicing edges between the plate bodies 8 are basically on the same plane.

[0042] Please see Figure 5 and Figure 6The second adjusting component 4 includes a first adjusting block 401 fixedly connected to the outer end of the inner rod 302. The upper surface of the first adjusting block 401 is provided with a T-shaped second sliding groove 402. Horizontal guide grooves 405 are provided through both sides of the interior of the second sliding groove 402. A T-shaped second slider 403 is slidably installed in the second sliding groove 402, and the top of the second slider 403 extends out of the second sliding groove 402. Fixing bolts 404 extending out of the guide grooves 405 are provided on both sides of the second slider 403. In use, the position of the second slider 403 in the second sliding groove 402 is adjusted according to actual needs. When the edges of two adjacent plate bodies 8 are on the same plane, the nut is put on the fixing bolts 404 and tightened, thereby fixing the second slider 403 inside the second sliding groove 402. The position of the plate bodies 8 is precisely adjusted so that the connecting edges of the two plate bodies 8 are on the same plane.

[0043] Please see Figures 7 to 9 The third adjusting member 5 includes a second adjusting block 501 fixedly connected to the top of the second slider 403. A T-shaped third sliding groove 502 is formed on the top of the second adjusting block 501. Mounting grooves 503 are formed on both sides of the inner side of the third sliding groove 502. A sealing frame 508 is provided at the opening of the mounting groove 503. A telescopic block 506 is inserted through the sealing frame 508. A fixing spring 505 is provided at the inner end of the telescopic block 506. A T-shaped third slider 504 is slidably mounted in the third sliding groove 502, with the top of the third slider 504 extending out of the third sliding groove 502. Positioning teeth 507 are provided on both sides of the third slider 504 and the outer end of the telescopic block 506. In a preferred embodiment, the plane of the positioning teeth 507 is a right-angled triangle structure. With this configuration, during use, the second adjusting block 503 is pushed by the connecting member 6. The movement of the three sliders 504 utilizes the mutual pressing of the inclined surfaces of the positioning teeth 507 to overcome the elasticity of the fixing spring 505, causing the telescopic block 506 to move into the mounting groove 503. This allows the positioning teeth 507 on the third slider 504 to disengage from the positioning teeth 507 on the telescopic block 506, enabling the third slider 504 to move in one direction. When it reaches the appropriate position, the movement of the third slider 504 is stopped, and at the same time, the fixing spring 505 pushes the telescopic block 506 outward until the positioning teeth 507 on the telescopic block 506 and the positioning teeth 507 on the third slider 504 are tightly engaged. The mutual pressing of the right-angled surfaces of the positioning teeth 507 prevents the third slider 504 from retracting, thereby limiting and fixing the third slider 504, ensuring that the two adjacent plate bodies 8 can fit tightly together.

[0044] Please see Figure 10The connector 6 is a vertically arranged L-shaped structure, and the bottom of the connector 6 is fixedly connected to the top of the third slider 504. A horizontal threaded rod 601 is provided on the inner side of the connector 6. The embedded part 7 includes an embedded plate 701 embedded in the back side of the plate body 8. An L-shaped plate 702 is provided on the embedded plate 701 that extends out of the back side of the plate body 8. The L-shaped plate 702 protects the horizontal plate and the vertical plate. A threaded hole 703 corresponding to the threaded rod 601 is provided on the vertical plate. The vertical plate is fixedly connected to the connector 6 by bolts. In use, the threaded rod 601 is inserted into the threaded hole 703, and the embedded part 7 and the connector 6 are fixed together by the cooperation of the nut and the threaded rod 601.

[0045] Example 2

[0046] Please see Figure 11 and Figure 12 This embodiment describes a method for installing irregularly shaped curtain wall panels, comprising the following steps:

[0047] S1: Fix square steel 1 to the wall at equal intervals using bolts to form a base surface. Before installing square steel 1, use laser projection to divide the wall at equal intervals, arrange square steel 1 along the laser line, and fix it to the wall with expansion bolts.

[0048] S2: Install several horizontal U-shaped steels 2 on the foundation surface with bolts, so that every two U-shaped steels 2 correspond to a row of plate body 8. Drill holes in the square steel 1 corresponding to the fixing holes 202 with drilling equipment. Fix the U-shaped steels 2 on the square steel 1 by the cooperation of bolts and fixing holes 202, and make the distance between two adjacent U-shaped steels 2 equal to the distance between the upper and lower embedded parts 7 on the rear side of the plate body 8.

[0049] S3: Assemble the first adjusting member 3, the second adjusting member 4, the third adjusting member 5, and the connecting member 6 together. Connect the first slider 303 of the first adjusting member 3 to the U-shaped steel 2. Slide the first slider 303 from one end of the U-shaped steel 2 into the first groove 201 and fix it with bolts. During assembly, weld the first adjusting block 401 in the second adjusting member 4 to the inner rod 302 in the first adjusting member 3 to complete the welding assembly between the first adjusting member 3 and the second adjusting member 4. Weld the second adjusting block 501 in the third adjusting member 5 to the second slider 403 in the second adjusting member 4 to complete the welding assembly between the second adjusting member 4 and the third adjusting member 5. Weld the bottom of the connecting member 6 to the third slider 501 in the third adjusting member 5 to complete the welding assembly between the connecting member 6 and the third adjusting member 5.

[0050] S4: Fix the embedded part 7 of the plate body 8 to the connector 6 assembled in S3, insert the threaded rod 601 into the threaded hole 703, and fix the embedded part 7 and the connector 6 together by the cooperation of the nut and the threaded rod 601.

[0051] S5: By adjusting the first adjusting member 3, the second adjusting member 4, and the third adjusting member 5, the position of the board body 8 is adjusted so that the board bodies 8 are spliced ​​together. When adjusting the first adjusting member 3, the inner rod 302 is inserted into the outer tube 301. The position of the inner rod 302 in the outer tube 301 is adjusted according to actual needs, and the positioning hole 306 and the adjusting hole 304 are matched accordingly. The positioning hole 306 and the adjusting hole 304 are limited and fixed by adjusting bolt 305, and the length of the first adjusting member 3 is adjusted and fixed. The distance between the board body 8 and the base surface is further roughly adjusted so that the splicing edges between the board bodies 8 are basically on the same plane.

[0052] When adjusting the second adjusting member 4, adjust the position of the second slider 403 in the second slide groove 402 according to actual needs. When the edges of the two adjacent plate bodies 8 are on the same plane, put the nut on the fixing bolt 404 and tighten it, thereby fixing the second slider 403 inside the second slide groove 402. Precisely adjust the position of the plate body 8 so that the connecting edge of the two plate bodies 8 is completely on the same plane.

[0053] When adjusting the third adjusting member 5, the connecting member 6 is moved by the plate body 8 to be fixed, so that the connecting member 6 moves toward the plate body 8 that has been fixed. The connecting member 6 pushes the third slider 504 to move. By using the mutual compression of the inclined surfaces of the positioning teeth 507, the elastic force of the fixing spring 505 is overcome, so that the telescopic block 506 moves into the mounting groove 503. This causes the positioning teeth 507 on the third slider 504 to disengage from the positioning teeth 507 on the telescopic block 506, allowing the third slider 504 to move along the plate body 8 that has been fixed. When the edge of the plate body 8 to be fixed is tightly fitted with the edge of the plate body 8 that has been fixed, the movement of the third slider 504 is stopped. At the same time, the fixing spring 505 pushes the telescopic block 506 outward until the positioning teeth 507 on the telescopic block 506 and the positioning teeth 507 on the third slider 504 are tightly fitted together.

[0054] By utilizing the right-angled surfaces of the positioning teeth 507 to press against each other, the third slider 504 is prevented from retracting, thus limiting and fixing the third slider 504. This ensures that the two adjacent panel bodies 8 can fit tightly together. The third adjustment component can adjust and fix the horizontal position of the panel body 8, ensuring a tight fit between the two adjacent panel bodies 8. This results in a neater and smoother splicing between the panel bodies 8. Through multiple installations, the installation of the entire irregular-shaped curtain wall panel is completed. After installation, as shown... Figure 12 As shown.

[0055] Although embodiments of the invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A mounting bracket for irregularly shaped curtain wall panels, comprising an embedded part (7) pre-embedded on the back of the panel body (8) and a square steel (1) fixed to the wall surface, characterized in that: The square steel (1) has several pieces arranged vertically at equal intervals. A horizontal U-shaped steel (2) is installed on the front side of the square steel (1). A T-shaped first sliding groove (201) with an opening on the front side is provided in the U-shaped steel (2). A horizontal first adjusting member (3) is slidably installed in the first sliding groove (201). The first adjusting member (3) is perpendicular to the U-shaped steel (2). A second adjusting member (4) is provided at the end of the first adjusting member (3) away from the U-shaped steel (2). A third adjusting member (5) is slidably installed on the upper surface of the second adjusting member (4). The upper surface of the third adjusting member (5) is connected to the embedded part (7) through a connector (6). The first adjusting component (3) includes a horizontally arranged outer tube (301) and an inner rod (302). The inner end of the outer tube (301) is provided with a T-shaped first slider (303) that slides with the first sliding groove (201). The outer tube (301) is provided with a plurality of equidistant adjusting holes (304). The inner rod (302) is provided with a positioning hole (306) that corresponds to and cooperates with the adjusting holes (304). An adjusting bolt (305) is provided between the positioning hole (306) and the adjusting hole (304). The second adjusting member (4) includes a first adjusting block (401) fixedly connected to the outer end of the inner rod (302). The upper surface of the first adjusting block (401) is provided with a T-shaped second sliding groove (402). Horizontal guide grooves (405) are provided through both sides of the interior of the second sliding groove (402). A T-shaped second slider (403) is slidably installed in the second sliding groove (402), and the top of the second slider (403) extends out of the second sliding groove (402). Fixing bolts (404) extending out of the guide groove (405) are provided on both sides of the second slider (403). The third adjusting member (5) includes a second adjusting block (501) fixedly connected to the top of the second slider (403). The top of the second adjusting block (501) is provided with a T-shaped third slide groove (502). The inner sides of the third slide groove (502) are provided with mounting grooves (503). A sealing frame (508) is provided at the opening of the mounting groove (503). A telescopic block (506) is provided through the sealing frame (508). A fixing spring (505) is provided at the inner end of the telescopic block (506). A T-shaped third slider (504) is slidably installed in the third slide groove (502). The top of the third slider (504) extends out of the third slide groove (502). The two sides of the third slider (504) and the outer end of the telescopic block (506) are provided with mutually cooperating positioning teeth (507). The connector (6) is a vertically arranged L-shaped structure, and the bottom of the connector (6) is fixedly connected to the top of the third slider (504). A horizontal threaded rod (601) is provided on the inner side of the connector (6). The embedded part (7) includes an embedded plate (701) embedded inside the back side of the plate body (8). The embedded plate (701) is provided with an L-shaped plate (702) extending out of the back side of the plate body (8). The L-shaped plate (702) includes a horizontal plate and a vertical plate, and the vertical plate is provided with a threaded hole (703) that corresponds to the threaded rod (601). The vertical plate is fixedly connected to the connector (6) by bolts.

2. The irregular-shaped curtain wall panel mounting bracket according to claim 1, characterized in that: The first groove (201) has a fixing hole (202) on its inner side, and a bolt for fixing and connecting the square steel (1) is provided in the fixing hole (202).

3. A method for installing irregularly shaped curtain wall panels, the method using... A mounting bracket for irregularly shaped curtain wall panels as described in claim 1 or 2, characterized in that... It includes the following steps: S1: Fix the square steel (1) to the wall surface at equal intervals by bolts, so that the square steel (1) forms a base surface; S2: Install several horizontal U-shaped steels (2) on the base surface by bolts, so that every two U-shaped steels (2) correspond to a row of plate body (8); S3: Assemble the first adjusting component (3), the second adjusting component (4), the third adjusting component (5), and the connecting component (6) together. Connect the first slider (303) of the first adjusting component (3) to the U-shaped steel (2). Slide the first slider (303) from one end of the U-shaped steel (2) into the first groove (201) and fix it with bolts. During assembly, weld the first adjusting block (401) in the second adjusting component (4) to the inner rod (302) in the first adjusting component (3) to complete the welding assembly between the first adjusting component (3) and the second adjusting component (4). Weld the second adjusting block (501) in the third adjusting component (5) to the second slider (403) in the second adjusting component (4) to complete the welding assembly between the second adjusting component (4) and the third adjusting component (5). Weld the bottom of the connecting component (6) to the third slider (504) in the third adjusting component (5) to complete the welding assembly between the connecting component (6) and the third adjusting component (5). S4: Fix the embedded part (7) of the plate body (8) to the connector (6) assembled in S3; S5: By adjusting the first adjusting component (3), the second adjusting component (4) and the third adjusting component (5), the position of the panel body (8) is adjusted so that the panel body (8) is spliced ​​together, and the installation of the irregular curtain wall panel is completed.

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