A double-curved-surface aluminum plate mounting structure and a mounting method thereof
By cooperating with the support base and adjustment components, the position of the aluminum plate mounting base is adjusted, and the decorative panel is fixed with locking components, which solves the positioning deviation problem during the installation of hyperboloid aluminum plates and improves the accuracy and stability of aluminum plate installation.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- SHANDONG GOLD GRP CONSTR ENG CO LTD
- Filing Date
- 2023-11-14
- Publication Date
- 2026-06-05
AI Technical Summary
Hyperbolic aluminum panels are prone to positioning deviations during installation, resulting in errors in the spacing and flatness between adjacent panels, which affects the overall display effect.
The system employs a support base, an adjustment component, a first mounting base, a second mounting base, and a locking element. The adjustment component adjusts the positions of the first and second mounting bases, and the locking element secures the decorative panel, ensuring the spacing and flatness of adjacent decorative panels.
This effectively reduces the possibility of a poor overall display effect after the decorative panel is installed, and improves the accuracy and stability of aluminum panel installation.
Smart Images

Figure CN117513675B_ABST
Abstract
Description
Technical Field
[0001] This application relates to the technical field of aluminum plate mounting, and in particular to an easily adjustable hyperboloid aluminum plate mounting structure and its mounting method. Background Technology
[0002] Currently, hyperboloid aluminum panels are a type of sheet material made of aluminum, with a hyperboloid shape on the surface. They possess excellent strength and rigidity, are lightweight, corrosion-resistant, and weather-resistant. Due to their unique shape and design, hyperboloid aluminum panels can enhance the aesthetics and uniqueness of buildings. Therefore, they are commonly used as cladding panels for building walls. However, hyperboloid aluminum panels are prone to positioning deviations during installation, leading to errors in the spacing and flatness between adjacent panels, resulting in a poor overall appearance after installation.
[0003] Therefore, there is an urgent need for an easily adjustable hyperboloid aluminum plate mounting structure and its installation method. Summary of the Invention
[0004] To reduce the possibility of poor overall display effect after the aluminum panel is installed, this application provides an easily adjustable hyperboloid aluminum panel installation structure and its installation method.
[0005] Firstly, this application provides an easily adjustable hyperboloid aluminum plate mounting structure, employing the following technical solution:
[0006] An easily adjustable hyperboloid aluminum plate mounting structure includes a frame and a support base disposed on the frame. The support base is provided with a mounting adjustment mechanism, which includes an adjustment component, a first mounting base, and a second mounting base. The adjustment component is disposed on the support base. The first mounting base and the second mounting base are respectively connected to the adjustment component. The adjustment component is used to adjust the positions of the first mounting base and the second mounting base. The first mounting base and the second mounting base are respectively provided with decorative panels.
[0007] By adopting the above technical solution, the adjustment component can adjust the position of the first mounting base and the second mounting base, and decorative panels are respectively installed on the first mounting base and the second mounting base. This makes it easy to adjust the spacing and flatness between adjacent decorative panels through the first mounting base and the second mounting base, thereby reducing the possibility of poor overall display effect after the decorative panels are installed.
[0008] Optionally, the decorative panel is provided with a bent plate, and the first mounting base and the second mounting base are respectively provided with insertion slots. A locking member is provided in the insertion slot, and the bent plate is inserted into the insertion slot and engaged with the locking member.
[0009] By adopting the above technical solution, the bent plate is inserted into the insertion slot and engaged with the locking member, thereby facilitating the installation of decorative panels on the first mounting base and the second mounting base respectively.
[0010] Optionally, the locking component includes a rotating shaft, a first locking block, and a second locking block. The first locking block and the second locking block are disposed opposite each other on the circumferential sidewall of the rotating shaft. The first mounting base and the second mounting base are respectively provided with rotating grooves. The rotating grooves are connected to the insertion grooves. A positioning component is provided in the rotating grooves. A first magnetic sheet is provided on the positioning component. The rotating shaft is rotatably connected in the rotating grooves. The end of the first locking block away from the rotating shaft extends into the insertion groove. A second magnetic sheet is provided on the side of the second locking block near the support base. The first magnetic sheet and the second magnetic sheet attract each other. A protrusion is provided on the bending plate. The protrusion abuts against the side of the first locking block near the support base.
[0011] By adopting the above technical solution, when the bent plate is inserted into the insertion slot, the protrusion first applies pressure to the first locking block, causing the first locking block to rotate into the rotation slot. The first locking block drives the second locking block to rotate via a rotating shaft, and the second locking block drives the second magnetic piece to move, causing the second magnetic piece to separate from the first magnetic piece. This makes it less likely for the first locking block to interfere with the protrusion, allowing the bent plate to fully insert the protrusion into the insertion slot. At this time, the protrusion no longer applies pressure to the first locking block, and the first and second magnetic pieces attract each other, causing the second locking block to rotate. This causes the side of the second locking block near the support base to abut against the positioning component, and the second locking block drives the first locking block to rotate via a rotating shaft, so that the first locking block abuts against the side of the protrusion near the decorative panel. This facilitates the limiting of the protrusion, confining the bent plate within the insertion slot and preventing the bent plate from easily detaching from the insertion slot.
[0012] Optionally, the cross-sections of the first card block and the protrusion are both arc-shaped.
[0013] By adopting the above technical solution, the cross-sections of both the first locking block and the protrusion are arc-shaped, which facilitates the protrusion to push the first locking block to rotate.
[0014] Optionally, an elastic gasket is provided on the bottom wall of the insertion groove, and the elastic gasket is located between the side of the bent plate away from the decorative panel and the bottom wall of the insertion groove.
[0015] By adopting the above technical solution, the setting of the elastic gasket improves the pre-tightening force between the protrusion and the first locking block to a certain extent, thereby helping to reduce the possibility of the bent plate shaking in the insertion groove.
[0016] Optionally, the first mounting base and the second mounting base are respectively provided with positioning grooves, the positioning grooves are connected to the rotating grooves, and the end of the positioning member near the first magnetic sheet passes through the positioning groove and is inserted into the rotating groove.
[0017] By adopting the above technical solution, when it is necessary to pull the bending plate out of the insertion slot, the positioning member is first pulled out of the positioning slot, so that the positioning member drives the first magnetic piece to disengage from the rotating slot, thereby so that the positioning member no longer limits the second locking block, allowing the second locking block to rotate towards the support base, and thus the second locking block no longer limits the first locking block through the rotating shaft, so that the bending plate can drive the protrusion to disengage from the insertion slot.
[0018] Optionally, the support base has a sliding groove extending away from the frame, and the support base also has a through groove communicating with the sliding groove. The first mounting base and the second mounting base are slidably disposed in the through groove. The adjustment assembly includes an adjustment rod, which passes through the sliding groove and is inserted into the through groove. The adjustment rod is connected to the first mounting base and the second mounting base respectively. The adjustment rod is provided with a limiting member for fixing the adjustment rod.
[0019] By adopting the above technical solution, the adjusting rod can slide in the groove, so that the adjusting rod can drive the first mounting seat and the second mounting seat to move in the through groove, thereby facilitating the adjustment of the position of the first mounting seat and the second mounting seat relative to the support seat, so as to install the decorative panel on the first mounting seat and the second mounting seat. The limiting member can fix the adjusting rod, so that the position of the first mounting seat and the second mounting seat is fixed, thereby facilitating the stable support of the decorative panel by using the first mounting seat and the second mounting seat respectively.
[0020] Optionally, the adjusting rod is provided with a first threaded section and a second threaded section with opposite directions of rotation. The first threaded section is connected to the first mounting base, and the second threaded section is connected to the second mounting base.
[0021] By adopting the above technical solution, when the adjusting rod rotates, the adjusting rod can drive the first threaded section and the second threaded section to rotate, thereby facilitating the control of the first mounting seat and the second mounting seat to move closer or further apart, and thus facilitating the adjustment of the spacing between adjacent decorative panels using the first mounting seat and the second mounting seat.
[0022] Optionally, multiple support seats and multiple installation adjustment mechanisms are provided, with the multiple support seats arranged along the height direction of the frame, and the installation adjustment mechanisms corresponding one-to-one with the support seats.
[0023] By adopting the above technical solution, multiple installation adjustment mechanisms are set along the height direction of the frame, which makes it easy to adjust the distance between different positions on the decorative panel and the support base through different installation adjustment mechanisms. This helps to adjust the flatness between adjacent decorative panels and reduces the possibility of poor overall display effect after the decorative panel is installed.
[0024] Secondly, this application provides a method for installing a hyperboloid aluminum plate, employing the easily adjustable hyperboloid aluminum plate installation structure described in any of the above-mentioned aspects, comprising the following steps:
[0025] Install the frame;
[0026] Position adjustment: Adjust the first mounting base and the second mounting base to the specified position using the adjustment components;
[0027] For decorative panel installation, the decorative panel is fixed on the first mounting base and the second mounting base respectively.
[0028] In summary, this application includes at least one of the following beneficial technical effects:
[0029] 1. Through the cooperation of the support base, adjustment component, first mounting base, second mounting base, locking component and bending plate, the positions of the first mounting base and the second mounting base can be adjusted, and the decorative panel can be easily installed on the first mounting base and the second mounting base. This makes it easy to use the first mounting base and the second mounting base to adjust the spacing and flatness between adjacent decorative panels, thereby reducing the possibility of poor overall display effect after the decorative panel is installed.
[0030] 2. Through the cooperation of the rotating shaft, the first locking block, the second locking block, the positioning component, the first magnetic sheet, the second magnetic sheet, the protrusion and the bending plate, the bending plate drives the protrusion to be fully inserted into the insertion slot and it is not easy to disengage from the insertion slot, thus facilitating the installation of the decorative panel.
[0031] 3. Through the cooperation of the support base, adjusting rod, first threaded section, second threaded section and limiting component, the adjusting rod can drive the first mounting base and the second mounting base to move closer to or away from the frame, and the adjusting rod can rotate to drive the first mounting base and the second mounting base closer to or further away from each other, thereby facilitating the adjustment of the position of the first mounting base and the second mounting base. In turn, it is convenient to use the first mounting base and the second mounting base to adjust the spacing and flatness between adjacent decorative panels, which to a certain extent reduces the possibility of poor overall display effect after the decorative panels are installed. Attached Figure Description
[0032] Figure 1 This is a schematic diagram of the overall structure of an adjustable hyperboloid aluminum plate mounting structure according to an embodiment of this application.
[0033] Figure 2 This is a structural schematic diagram of the support base and installation adjustment mechanism according to an embodiment of this application.
[0034] Figure 3 This is a structural schematic diagram of the decorative panel, support base, and installation adjustment mechanism according to an embodiment of this application.
[0035] Figure 4 This is a front view of an adjustable hyperboloid aluminum plate mounting structure according to an embodiment of this application.
[0036] Figure 5 It is along Figure 4 A partial structural cross-sectional view of line AA in the middle.
[0037] Figure 6 yes Figure 5 A magnified view of a section at point B.
[0038] Explanation of reference numerals in the attached figures:
[0039] 1. Frame; 2. Support base; 21. Through groove; 22. Slide groove; 3. Mounting and adjusting mechanism; 31. Adjusting component; 311. Adjusting rod; 3111. First threaded section; 3112. Second threaded section; 312. Limiting component; 32. First mounting base; 33. Second mounting base; 34. Insertion groove; 341. Elastic gasket; 35. Rotating groove; 36. Positioning groove; 37. Positioning component; 371. First magnetic piece; 38. Locking component; 381. Rotating shaft; 382. First locking block; 383. Second locking block; 3831. Second magnetic piece; 4. Decorative panel; 41. Bending plate; 411. Protrusion; 5. Flame-retardant board base layer. Detailed Implementation
[0040] The following is in conjunction with the appendix Figure 1-6 This application will be described in further detail.
[0041] This application discloses an adjustable hyperboloid aluminum plate mounting structure.
[0042] It should be noted that, in the description of this invention, the terms "center," "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," and "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 this invention 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 this invention.
[0043] Reference Figure 1 and Figure 2An easily adjustable hyperboloid aluminum panel mounting structure includes a frame 1 and a support base 2 mounted on the frame 1. The support base 2 is equipped with an adjustment mechanism 3, which includes an adjustment component 31, a first mounting base 32, and a second mounting base 33. The adjustment component 31 is mounted on the support base 2. The first mounting base 32 and the second mounting base 33 are respectively connected to the adjustment component 31, and the adjustment component 31 is used to adjust the positions of the first mounting base 32 and the second mounting base 33. The first mounting base 32 and the second mounting base 33 are each equipped with a decorative panel 4, thereby facilitating the adjustment of the spacing and flatness between adjacent decorative panels 4 via the first mounting base 32 and the second mounting base 33, thus reducing the possibility of a poor overall display effect after the decorative panels 4 are installed.
[0044] In this embodiment, the frame 1 is a steel frame keel, and a flame-retardant board base layer 5 is provided on the frame 1. The support seat 2 is fixedly connected to the frame 1 by bolts and is located on the side of the flame-retardant board base layer 5 away from the frame 1.
[0045] Reference Figure 3 and Figure 4 In this embodiment, the decorative panel 4 is a hyperboloid aluminum plate, and a bent plate 41 is fixedly connected to the decorative panel 4. Multiple support bases 2 are provided, arranged along the height direction of the frame 1. The number of installation adjustment mechanisms 3 and bent plates 41 are equal to the number of support bases 2 and are arranged in a one-to-one correspondence with the support bases 2. In this embodiment, each bent plate 41 is fixedly connected to a protrusion 411 (see reference). Figure 5 ).
[0046] Reference Figure 2 The support base 2 has a through groove 21, and the two sides of the support base 2 have sliding grooves 22 in the direction away from the frame 1, which are connected to the through groove 21. The first mounting base 32 and the second mounting base 33 are slidably disposed in the through groove 21 and fit against the inner wall of the through groove 21.
[0047] Reference Figure 5 The adjusting assembly 31 includes an adjusting rod 311, which passes through the slide groove 22 and is inserted into the through groove 21, fitting against the inner wall of the slide groove 22. Both ends of the adjusting rod 311 extend to the side of the slide groove 22 away from the through groove 21, facilitating movement of the adjusting rod 311 by the operator. In this embodiment, the adjusting rod 311 has a circular cross-section to facilitate rotation within the slide groove 22.
[0048] Limiting elements 312 are provided at both ends of the adjusting rod 311. In this embodiment, the limiting element 312 is an adjusting nut, and the limiting element 312 is threadedly connected to the adjusting rod 311, so as to use the two limiting elements 312 to fix the adjusting rod 311 on the support base 2 to prevent the adjusting rod 311 from sliding in the slide groove 22.
[0049] In other embodiments, the limiting member 312 may also be configured as a retaining ring, and a retaining hook for the retaining ring to be fitted on the support base 2 is provided to limit the adjustment rod 311.
[0050] Reference Figure 5 The adjusting rod 311 is coaxially provided with a first threaded section 3111 and a second threaded section 3112 with opposite directions of rotation. The first threaded section 3111 is threadedly connected to the first mounting base 32, and the second threaded section 3112 is threadedly connected to the second mounting base 33. Thus, when the adjusting rod 311 rotates, the adjusting rod 311 can drive the first mounting base 32 and the second mounting base 33 to move closer or further apart through the first threaded section 3111 and the second threaded section 3112.
[0051] The first mounting base 32 and the second mounting base 33 are respectively provided with insertion slots 34, which are adapted to bend plates 41. In addition, the first mounting base 32 and the second mounting base 33 are also provided with rotating slots 35, which are connected to the insertion slots 34 and are located on the side of the insertion slots 34 near the support base 2.
[0052] Positioning grooves 36 are respectively provided on the side walls of the first mounting base 32 and the second mounting base 33. The positioning grooves 36 are connected to the rotating grooves 35, and the connection position between the positioning grooves 36 and the rotating grooves 35 is located near the bottom of the support base 2.
[0053] Reference Figure 5 and Figure 6 A positioning element 37 is slidably inserted into the positioning groove 36. One end of the positioning element 37 passes through the positioning groove 36 and is inserted into the rotating groove 35, while the other end of the positioning element 37 passes through the sliding groove 22. A first magnetic piece 371 is embedded in the end of the positioning element 37 inserted into the rotating groove 35. In this embodiment, the positioning element 37 can drive the first magnetic piece 371 to be pulled out sequentially from the rotating groove 35 and the positioning groove 36.
[0054] In other embodiments, the positioning groove 36 may also be provided at other locations of the first mounting base 32 and the second mounting base 33, as long as it can ensure that the positioning member 37 can be smoothly pulled out from the positioning groove 36.
[0055] Reference Figure 5 and Figure 6 The first mounting base 32 and the second mounting base 33 are provided with locking components 38, which include a rotating shaft 381, a first locking block 382, and a second locking block 383. The rotating shaft 381 is inserted into the rotating groove 35 and rotatably connected to the inner wall of the rotating groove 35. The first locking block 382 and the second locking block 383 are arranged opposite to each other on the circumferential side wall of the rotating shaft 381, so that the rotating shaft 381 can drive the first locking block 382 and the second locking block 383 to rotate synchronously.
[0056] The first locking block 382 extends into the insertion slot 34 at the end away from the rotating shaft 381. The second locking block 383 is positioned close to the positioning member 37, and a second magnetic piece 3831 is fixedly connected to the second locking block 383. The second magnetic piece 3831 is located on the side of the second locking block 383 close to the positioning member 37 and attracts each other with the first magnetic piece 371. This makes it difficult for the positioning member 37 to disengage from the positioning slot 36 and allows the positioning member 37 to limit the second locking block 383, making it difficult for the second locking block 383 to rotate in the direction close to the positioning member 37.
[0057] In this embodiment, the cross-sections of the first locking block 382 and the protrusion 411 are both arc-shaped, which makes it easier for the protrusion 411 to push the first locking block 382 to rotate.
[0058] Reference Figure 5 and Figure 6 When the bending plate 41 is inserted into the insertion slot 34, the protrusion 411 first applies pressure to the first locking block 382, causing the first locking block 382 to rotate. The first locking block 382 drives the second locking block 383 to rotate via the rotating shaft 381, causing the first magnetic piece 371 to separate from the second magnetic piece 3831. At this time, the first locking block 382 rotates into the rotating slot 35, making it less likely for the first locking block 382 to interfere with the protrusion 411, so that the bending plate 41 can drive the protrusion 411 to be fully inserted into the insertion slot 34.
[0059] When the bending plate 41 drives the protrusion 411 to be fully inserted into the insertion slot 34, the protrusion 411 no longer applies pressure to the first locking block 382, so that the first magnetic piece 371 attracts the second magnetic piece 3831 and drives the second locking block 383 to rotate, so that the second locking block 383 abuts against the positioning member 37, thereby making it difficult for the second locking block 383 to move closer to the positioning member 37. The positioning block limits the first locking block 382 through the rotating shaft 381, making it difficult for the first locking block 382 to rotate into the rotating slot 35. At this time, the first locking block 382 abuts against the side of the protrusion 411 near the decorative panel 4, thereby facilitating the limiting of the protrusion 411, and thus facilitating the confinement of the bending plate 41 within the insertion slot 34, making it difficult for the bending plate 41 to detach from the insertion slot 34.
[0060] When it is necessary to remove the bending plate 41 from the insertion slot 34, the positioning member 37 is first removed from the positioning slot 36. The positioning member 37 drives the first magnetic piece 371 to disengage from the rotating slot 35, so that the positioning member 37 no longer limits the second locking block 383, allowing the second locking block 383 to rotate towards the support base 2. This allows the second locking block 383 to no longer limit the first locking block 382 through the rotating shaft 381, so that the bending plate 41 can drive the protrusion 411 to disengage from the insertion slot 34.
[0061] It should be noted that, in this embodiment of the application, the side of the decorative panel 4 that is not adjacent to other decorative panels 4 is fixedly connected to the frame 1 using a fixed corner bracket.
[0062] Reference Figure 5 and Figure 6 An elastic pad 341 is provided on the bottom wall of the insertion groove 34, and the elastic pad 341 is located between the side of the bent plate 41 away from the decorative panel 4 and the bottom wall of the insertion groove 34, thereby increasing the pre-tightening force between the protrusion 411 and the first locking block 382 to a certain extent, which helps to reduce the possibility of the bent plate 41 shaking in the insertion groove 34, and thus improves the installation stability of the decorative panel 4.
[0063] The implementation principle of the adjustable hyperboloid aluminum plate mounting structure in this application embodiment is as follows: When the decorative panel 4 needs to be installed, firstly, the adjusting rod 311 is moved, causing the first mounting base 32 and the second mounting base 33 to move to the designated position within the through groove 21. Then, the adjusting rod 311 is rotated, causing the first threaded section 3111 and the second threaded section 3112 to rotate, thereby adjusting the distance between the first mounting base 32 and the second mounting base 33. Next, the limiting member 312 is rotated, fixing the adjusting rod 311 to the support base 2.
[0064] Finally, the bent plate 41 is inserted into the insertion slot 34, so that the first locking block 382 abuts against the side of the protrusion 411 near the decorative panel 4, thereby confining the bent plate 41 within the insertion slot 34. At this time, the distance between the decorative panel 4 fixed on the first mounting base 32 and the second mounting base 33 is constant, thereby realizing the installation of the decorative panel 4.
[0065] This application also discloses a method for installing hyperboloid aluminum plates, including the following steps:
[0066] Construction layout involves accurately laying out the baseline and finished surface lines according to the curvature of the design drawings.
[0067] Install frame 1 and perform anti-corrosion treatment.
[0068] Fireproofing features include a flame-retardant base layer 5 installed on the frame 1, with adjustments made to the curvature and flatness of the base layer.
[0069] Position adjustment: Slide the adjusting rod 311. The adjusting rod 311 moves the first mounting base 32 and the second mounting base 33 to the designated position. Then rotate the adjusting rod 311 to adjust the distance between the first mounting base 32 and the second mounting base 33.
[0070] To install the decorative panel 4, one side of the decorative panel 4 that is not adjacent to other decorative panels 4 is fixed to the frame 1 using a fixed corner bracket. The bent plate 41 on the other side is inserted into the insertion slot 34, and the first locking block 382 abuts against the protrusion 411, thereby restricting the bent plate 41 within the insertion slot 34. This allows the decorative panel 4 to be fixed on the first mounting base 32 and the second mounting base 33 respectively, thereby fixing the spacing and flatness between adjacent decorative panels 4, thus achieving the installation of the decorative panel 4.
[0071] The above are all preferred embodiments of this application, and are not intended to limit the scope of protection of this application. Therefore, all equivalent changes made in accordance with the structure, shape and principle of this application should be covered within the scope of protection of this application.
Claims
1. An easily adjustable hyperboloid aluminum plate mounting structure, characterized in that: The system includes a frame (1) and a support base (2) disposed on the frame (1). The support base (2) is provided with an installation adjustment mechanism (3). The installation adjustment mechanism (3) includes an adjustment component (31), a first mounting base (32) and a second mounting base (33). The adjustment component (31) is disposed on the support base (2). The first mounting base (32) and the second mounting base (33) are respectively connected to the adjustment component (31). The adjustment component (31) is used to adjust the position of the first mounting base (32) and the second mounting base (33). The first mounting base (32) and the second mounting base (33) are respectively provided with decorative panels (4). The decorative panel (4) is provided with a bent plate (41), and the first mounting base (32) and the second mounting base (33) are respectively provided with insertion slots (34). The insertion slots (34) are provided with locking members (38). The bent plate (41) is inserted into the insertion slots (34) and engaged with the locking members (38). The locking component (38) includes a rotating shaft (381), a first locking block (382), and a second locking block (383). The first locking block (382) and the second locking block (383) are disposed opposite each other on the circumferential sidewall of the rotating shaft (381). The first mounting base (32) and the second mounting base (33) are respectively provided with rotating grooves (35). The rotating grooves (35) are connected to the insertion groove (34). A positioning component (37) is provided in the rotating groove (35). A first magnetic piece (371) is provided on the positioning component (37). The rotating shaft (381) is rotatably connected in the rotating groove (35). The first locking block (382) extends from the end away from the rotating shaft (381) into the insertion groove (34). The second locking block (383) is provided with a second magnetic sheet (3831) on the side near the support base (2). The first magnetic sheet (371) and the second magnetic sheet (3831) attract each other. The bending plate (41) is provided with a protrusion (411). The protrusion (411) abuts against the side of the first locking block (382) near the support base (2).
2. The adjustable hyperboloid aluminum plate mounting structure according to claim 1, characterized in that: The cross-sections of the first card block (382) and the protrusion (411) are both arc-shaped.
3. The adjustable hyperboloid aluminum plate mounting structure according to claim 1, characterized in that: An elastic gasket (341) is provided on the bottom wall of the insertion groove (34), and the elastic gasket (341) is located between the side of the bent plate (41) away from the decorative panel (4) and the bottom wall of the insertion groove (34).
4. The adjustable hyperboloid aluminum plate mounting structure according to claim 1, characterized in that: The first mounting base (32) and the second mounting base (33) are respectively provided with positioning grooves (36), the positioning grooves (36) are connected to the rotating grooves (35), and the positioning member (37) is inserted into the rotating grooves (35) through the positioning grooves (36) at one end near the first magnetic sheet (371).
5. The adjustable hyperboloid aluminum plate mounting structure according to claim 1, characterized in that: The support base (2) has a through groove (22) extending away from the frame (1). The support base (2) also has a through groove (21) communicating with the through groove (22). The first mounting base (32) and the second mounting base (33) are slidably disposed in the through groove (21). The adjustment component (31) includes an adjustment rod (311). The adjustment rod (311) passes through the through groove (22) and is inserted into the through groove (21). The adjustment rod (311) is connected to the first mounting base (32) and the second mounting base (33) respectively. The adjustment rod (311) is provided with a limiting member (312) for fixing the adjustment rod (311).
6. The adjustable hyperboloid aluminum plate mounting structure according to claim 5, characterized in that: The adjusting rod (311) is provided with a first threaded section (3111) and a second threaded section (3112) with opposite directions of rotation. The first threaded section (3111) is connected to the first mounting base (32), and the second threaded section (3112) is connected to the second mounting base (33).
7. The adjustable hyperboloid aluminum plate mounting structure according to claim 1, characterized in that: Multiple support bases (2) and multiple installation adjustment mechanisms (3) are provided. Multiple support bases (2) are provided along the height direction of the frame (1). The installation adjustment mechanisms (3) are provided in a one-to-one correspondence with the support bases (2).
8. A method for installing a hyperboloid aluminum plate, employing the easily adjustable hyperboloid aluminum plate installation structure as described in any one of claims 1-7, comprising the following steps: Install the frame (1); Position adjustment: Adjust the first mounting base (32) and the second mounting base (33) to the specified position using the adjustment component (31); The decorative panel (4) is installed on the first mounting base (32) and the second mounting base (33).