A super-high space soft film ceiling reversible disassembly and modification system and a disassembly and modification method
By designing a reversible dismantling and modification system for ultra-high space stretch ceilings, and utilizing a ceiling frame structure that links plug-in components and opening and closing components, the problem of high construction and dismantling difficulties in ultra-high spaces is solved, achieving a convenient and safe construction process.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- GOLD MANTIS CONSTR DECORATION
- Filing Date
- 2024-01-02
- Publication Date
- 2026-06-23
AI Technical Summary
Existing stretch ceilings are difficult to install and modify in ultra-high spaces, and cannot meet construction requirements.
Design a reversible disassembly and modification system for ultra-high space stretch membrane ceilings, including a ceiling frame, an assembly mechanism, and a disassembly and modification mechanism. The connection and disassembly of the ceiling frame are achieved through the linkage of plug-in components and opening and closing components, and the height is adjusted in conjunction with a lifting mechanism.
It reduces the difficulty of on-site hoisting and subsequent dismantling and modification, improves the convenience and safety of construction, and allows for the partial dismantling of small sections of the ceiling frame without affecting the overall structure.
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Figure CN117552664B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of stretch ceilings, specifically to a reversible dismantling and modification system and method for ultra-high space stretch ceilings. Background Technology
[0002] From being largely unknown, stretch ceilings have increasingly become the preferred ceiling material. Having withstood the test of the market, stretch ceilings, with their rich colors and versatile designs, have won the favor and application of many designers. Designers utilize stretch ceilings in conjunction with various lighting systems to create dreamlike, shadowless interior lighting effects in public spaces such as exhibition halls, stadiums, and clubs, aiming to create a strong aesthetic experience.
[0003] Considering the high ceilings in stadiums and the significant challenges of on-site installation and subsequent dismantling, existing stretch ceiling systems cannot meet construction requirements. Therefore, it is necessary to design a reversible stretch ceiling system and dismantling method for ultra-high spaces. Summary of the Invention
[0004] The purpose of this invention is to provide a reversible dismantling and modification system and method for ultra-high space stretch ceilings to solve the above-mentioned problems.
[0005] To achieve the above objectives, the present invention provides a reversible dismantling and modification system for ultra-high space stretch membrane ceilings, comprising: a plurality of ceiling frames, wherein each of the ceiling frames has an assembly mechanism and a dismantling and modification mechanism on both sides, and the assembly mechanism and the dismantling and modification mechanism of adjacent ceiling frames correspond to each other.
[0006] The disassembly / modification mechanism includes a plug-in component and an opening / closing component. The opening / closing component is movably connected to the ceiling frame, and the plug-in component is elastically connected to the ceiling frame. The plug-in component corresponds to the assembly mechanism, and the opening / closing component is linked to the plug-in component.
[0007] When two adjacent ceiling frames are connected, the two ceiling frames are aligned so that the plug-in component is aligned with the corresponding assembly mechanism. The opening and closing component is closed and rotated around the ceiling frame until it is closed, so that the opening and closing component pushes one end of the plug-in component into the assembly mechanism to connect the two ceiling frames.
[0008] Furthermore, the opening and closing assembly includes a fixed base, an extension member, and a slider, wherein the fixed base is fixedly disposed on one side of the ceiling frame;
[0009] The assembly mechanism has an opening and closing plate, one end of which is hinged to the assembly mechanism, and the other end extends toward the plug-in assembly.
[0010] The slider is slidably connected to the ceiling frame, and the two ends of the extension member are respectively hinged to the slider and the opening and closing plate;
[0011] When two adjacent ceiling frames are connected, the hinge plate rotates around the hinge to close, the hinge plate pushes the extension member to retract, and at the same time the extension member drives the slider to slide along the ceiling frame to push the plug-in assembly, so that the end of the plug-in assembly is inserted into the assembly mechanism to connect the two ceiling frames.
[0012] When two adjacent ceiling frames are disassembled, the extension member pushes the opening and closing plate to rotate around the hinge to open, the slider slides to disengage from the plug-in assembly, and the plug-in assembly elastically resets so that the end of the plug-in assembly disengages from the assembly mechanism.
[0013] Furthermore, the plug-in assembly includes a mating seat, a floating block, and a floating spring. The floating block is slidably disposed on one side of the ceiling frame, and the two ends of the floating spring are respectively connected to the mating seat and the floating block.
[0014] The floating block has a plug-in rod on the side facing the mating seat. The length of the plug-in rod is greater than the thickness of the mating seat, and the mating seat has an assembly hole corresponding to the plug-in rod.
[0015] When two adjacent ceiling frames are connected, the slider pushes the floating block so that the floating block drives the plug rod through the assembly hole and inserts it into the assembly mechanism.
[0016] Furthermore, the extension member includes an extension cylinder and a sleeve rod, one end of the sleeve rod is hinged to the opening and closing plate, and the other end is inserted into the extension cylinder, and the extension cylinder is sealed to the sleeve rod.
[0017] Furthermore, the assembly mechanism includes an assembly block and a mating block, the assembly block corresponding to the fixed seat, and one end of the opening and closing plate being hinged to the assembly block;
[0018] The mating block corresponds to the mating seat.
[0019] Furthermore, a guide groove is provided on one side of the assembly block, and a guide block is provided on one side of the fixing seat, with the guide groove corresponding to the guide block;
[0020] The mating block has a plug hole on one side, which corresponds to the plug rod.
[0021] Furthermore, the ultra-high space stretch ceiling reversible modification system also includes at least one lifting mechanism. The lifting mechanism includes a fixed frame, an installation frame, a first sliding member, a second sliding member, two first connecting rods and two second connecting rods. The installation frame is connected to the ceiling frame, and the fixed frame is located directly above the installation frame.
[0022] The first sliding member and the second sliding member are respectively slidably disposed on the fixed frame and the mounting frame;
[0023] The two ends of the first connecting rod are respectively hinged to the fixed frame and the second sliding member, the two ends of the second connecting rod are respectively hinged to the mounting frame and the first sliding member, and the middle of the two connecting rods are hinged to each other.
[0024] Furthermore, the fixed frame is also provided with a drive motor and a lead screw, the drive motor or its movable end is connected to the lead screw for transmission, and the lead screw is threadedly connected to the first sliding member.
[0025] Furthermore, one side of the ceiling frame has a mounting plane suitable for mounting a stretch ceiling.
[0026] In addition, the present invention also provides a reversible dismantling and modification system and method for ultra-high space stretch ceiling. The reversible dismantling and modification system for ultra-high space stretch ceiling as described above is used as follows: When connecting two adjacent ceiling frames, the opening and closing plate rotates around the hinge to close. The opening and closing plate pushes the sleeve rod to retract into the extension cylinder and drives the extension cylinder and the slider to slide towards the floating block. The floating block drives the plug rod to pass through the mating seat and inserts the end of the plug rod into the plug hole. Then, the opening and closing plate is connected to the mating block by bolts.
[0027] After the ceiling frames are connected, the drive motor drives the lead screw to rotate, and the lead screw drives the first sliding member to slide, so that the first connecting rod and the second connecting rod drive the mounting frame to move the ceiling frame to the display position.
[0028] When the flower frames of adjacent two days are disassembled, the opening and closing plate separates from the mating block, the sleeve rod pushes the opening and closing plate to open, so that the extension cylinder drives the slider to disengage from the floating block, and the plug rod disengages from the plug hole, so that the flower frames of adjacent two days are disconnected.
[0029] Compared with the prior art, the present invention has the following advantages: by setting up a dismantling and modification mechanism, the ceiling frame can be divided into multiple small modules from a large module, and each module can be dismantled and modified individually, thereby greatly reducing the difficulty of on-site hoisting and subsequent dismantling and modification. Attached Figure Description
[0030] The present invention will be further described below with reference to the accompanying drawings and embodiments.
[0031] Figure 1 A perspective view of the reversible dismantling and modification system for ultra-high space flexible membrane ceilings of the present invention is shown.
[0032] Figure 2 A perspective view of the lifting mechanism of the present invention is shown;
[0033] Figure 3 A first perspective view of the ceiling frame of the present invention is shown;
[0034] Figure 4 A second perspective view of the ceiling frame of the present invention is shown.
[0035] In the picture:
[0036] 1. Ceiling frame; 2. Assembly mechanism; 21. Hinging plate; 22. Assembly block; 23. Mating block; 24. Guide groove;
[0037] 3. Disassembly and alteration mechanism; 31. Plug-in assembly; 311. Mating seat; 312. Floating block; 313. Floating spring; 314. Plug-in rod; 32. Opening and closing assembly; 321. Fixed seat; 322. Extension piece; 323. Extension cylinder; 324. Sleeve rod; 325. Guide block;
[0038] 4. Lifting mechanism; 41. Fixed frame; 42. Mounting frame; 43. First sliding member; 44. Second sliding member; 45. First connecting rod; 46. Second connecting rod; 47. Drive motor; 48. Lead screw. Detailed Implementation
[0039] The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic diagrams, illustrating only the basic structure of the invention, and therefore only show the components relevant to the invention.
[0040] Example 1, as Figures 1 to 4 As shown, this embodiment provides a reversible alteration system for ultra-high space stretch ceilings, including: several ceiling frames 1, each with a downward-facing mounting plane suitable for installing a stretch ceiling to create a decorative effect. A complete stretch ceiling decorative surface is formed by combining several ceiling frames 1.
[0041] It should be noted that, considering the high ceilings in stadiums and the significant difficulties in on-site installation and subsequent dismantling and modification, existing stretch ceiling systems cannot meet the construction requirements. Therefore, in this embodiment, assembly mechanisms 2 and dismantling mechanisms 3 are respectively provided on both sides of the ceiling frame 1, with the assembly mechanisms 2 and dismantling mechanisms 3 corresponding to those of adjacent ceiling frames 1. Two ceiling frames 1 can be connected through the cooperation of the assembly mechanisms 2 and dismantling mechanisms 3. Simultaneously, this method allows for a significant reduction in the size of each ceiling frame 1, eliminating the need for large-module frames to support the stretch ceiling. That is, if problems arise later, only a small area of the ceiling frame 1 needs to be disassembled, without requiring the dismantling and modification of the original large-module frame, improving convenience and significantly enhancing safety. Specifically, the disassembly / modification mechanism 3 includes a plug-in component 31 and an opening / closing component 32. The opening / closing component 32 is movably connected to the ceiling frame 1, and the plug-in component 31 is elastically connected to the ceiling frame 1. The plug-in component 31 corresponds to the assembly mechanism 2, and the opening / closing component 32 is linked to the plug-in component 31. With this configuration, when two adjacent ceiling frames 1 are connected, the two ceiling frames 1 are aligned so that the plug-in component 31 is aligned with the corresponding assembly mechanism 2. The opening / closing component 32 closes and rotates around the ceiling frame 1 until it is closed, so that the opening / closing component 32 pushes one end of the plug-in component 31 into the assembly mechanism 2 to connect the two ceiling frames 1. Conversely, the two adjacent ceiling frames 1 can be disassembled.
[0042] To achieve the opening and closing effect of the opening and closing assembly 32, the opening and closing assembly 32 includes a fixed base 321, an extension member 322, and a slider. The fixed base 321 is fixedly disposed on one side of the ceiling frame 1. The assembly mechanism 2 has an opening and closing plate 21, one end of which is hinged to the assembly mechanism 2, and the other end extends toward the insertion assembly 31. The slider is slidably connected to the ceiling frame 1, and both ends of the extension member 322 are hinged to the slider and the opening and closing plate 21, respectively. With the above configuration, when closing the opening and closing assembly 32, the opening and closing plate 21 can be manually operated to close inward, and the opening and closing plate 21 can drive the extension member 322 and the slider to slide back and forth along the ceiling frame 1. When two adjacent ceiling frames 1 are connected, the hinge plate 21 rotates around the hinge to close, and the hinge plate 21 pushes the extension member 322 to retract. At the same time, the extension member 322 drives the slider to slide along the ceiling frame 1 to push the insertion assembly 31, so that the end of the insertion assembly 31 is inserted into the assembly mechanism 2 to connect the two ceiling frames 1. When two adjacent ceiling frames 1 are disassembled, the extension member 322 pushes the hinge plate 21 to rotate around the hinge to open, the slider slides to disengage from the insertion assembly 31, and the insertion assembly 31 elastically resets, so that the end of the insertion assembly 31 disengages from the assembly mechanism 2. Through the above process, the hinge assembly 32 can be driven by the hinge plate 21 to link with the insertion assembly 31, thereby connecting or disassembling two adjacent ceiling frames 1.
[0043] The structure of the plug-in assembly 31 is described in detail below. The plug-in assembly 31 includes a mating seat 311, a floating block 312, and a floating spring 313. The floating block 312 is slidably disposed on one side of the ceiling frame 1. The two ends of the floating spring 313 are respectively connected to the mating seat 311 and the floating block 312. A plug-in rod 314 is provided on the side of the floating block 312 facing the mating seat 311. The length of the plug-in rod 314 is greater than the thickness of the mating seat 311, and the mating seat 311 has an assembly hole corresponding to the plug-in rod 314. When two adjacent ceiling frames 1 are connected, the slider pushes the floating block 312, so that the floating block 312 drives the plug-in rod 314 through the assembly hole and inserts it into the assembly mechanism 2. In the above process, the floating block 312, as a floating component, is linked with the slider through the floating spring 313. When the opening and closing plate 21 closes, the slider pushes the floating block 312 closer to the mating seat 311 and the assembly mechanism 2, thereby inserting the connector rod 314 into the assembly mechanism 2. Conversely, when the opening and closing plate 21 opens, the slider causes the floating block 312 and the connector rod 314 to disengage from the assembly mechanism 2, thus achieving stable and reliable connection and disassembly. Simultaneously, the floating block 312 drives the connector rod 314 to sequentially pass through the mating seat 311 and the assembly mechanism 2. That is, the connector rod 314 functions similarly to a pin, connecting two different components by passing through them. Therefore, the connector assembly 31, in this process, achieves reliable and stable connection or disassembly of adjacent two flower frames 1 under the action of the opening and closing plate 21.
[0044] To facilitate the disassembly of the two-day flower frame 1, the extension member 322 includes an extension cylinder 323 and a sleeve rod 324. One end of the sleeve rod 324 is hinged to the opening and closing plate 21, and the other end is inserted into the extension cylinder 323, with the extension cylinder 323 and the sleeve rod 324 sealed together. With this configuration, the air inside the extension cylinder 323 is sealed while the extension member 322 is retractable. Therefore, the sleeve rod 324 and the extension cylinder 323 form a gas spring. When the opening and closing plate 21 is closed, the sleeve rod 324 is inserted into the extension cylinder 323 at its maximum stroke, compressing the air inside. When the opening and closing plate 21 is opened to a certain angle, the air inside the extension cylinder 323 automatically pushes the opening and closing plate 21 outwards.
[0045] The assembly mechanism 2 is described in detail below. The assembly mechanism 2 includes an assembly block 22 and a mating block 23. The assembly block 22 corresponds to the fixed seat 321. One end of the opening and closing plate 21 is hinged to the assembly block 22. The mating block 23 corresponds to the mating seat 311. Specifically, a guide groove 24 is provided on one side of the assembly block 22, and a guide block 325 is provided on one side of the fixed seat 321. The guide groove 24 corresponds to the guide block 325. A insertion hole is provided on one side of the mating block 23, and the insertion hole corresponds to the insertion rod 314. During installation, the guide groove 24 and the guide block 325 can be used to facilitate the operator in positioning adjacent two flower frames 1 and aligning the corresponding assembly mechanism 2 with the disassembly and modification mechanism 3.
[0046] In addition, to adjust the height of the ceiling frame 1 so that it is in a decorative position or a position to be dismantled or modified, in this embodiment, the reversible dismantling and modification system for ultra-high space stretch ceiling also includes at least one lifting mechanism 4. The lifting mechanism 4 includes a fixed frame 41, a mounting frame 42, a first sliding member 43, a second sliding member 44, two first connecting rods 45, and two second connecting rods 46. The mounting frame 42 is connected to the ceiling frame 1, and the fixed frame 41 is located directly above the mounting frame 42. The first sliding member 43 and the second sliding member 44 are slidably mounted on the fixed frame 41 and the mounting frame 42, respectively. The two ends of the first connecting rod 45 are hinged to the fixed frame 41 and the second sliding member 44, respectively, and the two ends of the second connecting rod 46 are hinged to the mounting frame 42 and the first sliding member 43, respectively, with the middle of the two connecting rods hinged to each other. With the above settings, when the first sliding member 43 slides along the fixed frame 41, the first sliding member 43 drives the first connecting rod 45 to rotate. The first connecting rod 45 drives the second connecting rod 46 to rotate through the hinge joint with the second connecting rod 46, so that the mounting frame 42 moves closer to or further away from the fixed frame 41, so that the ceiling frame 1 is in a decorative position or a position to be dismantled or modified.
[0047] To drive the first connecting rod 45 to slide along the fixed frame 41, the fixed frame 41 is also equipped with a drive motor 47 and a lead screw 48. The drive motor 47 or its movable end is connected to the lead screw 48, and the lead screw 48 is threadedly connected to the first sliding member 43. With the above configuration, the drive motor 47 can drive the first sliding member 43 to slide along the fixed frame 41 via the lead screw 48, thereby causing the first sliding member 43 to drive the first connecting rod 45 and the second connecting rod 46 to rotate, which in turn drives the mounting frame 42 and the ceiling frame 1 to rise and fall.
[0048] Example 2, this example is implemented based on Example 1. This example provides a reversible dismantling and modification system and method for ultra-high space stretch ceilings. It uses the reversible dismantling and modification system for ultra-high space stretch ceilings as described in Example 1, characterized in that...
[0049] When the two adjacent flower frames 1 are connected, the opening and closing plate 21 rotates around the hinge to close. The opening and closing plate 21 pushes the sleeve rod 324 to retract into the extension cylinder 323, and drives the extension cylinder 323 and the slider to slide towards the floating block 312. The floating block 312 drives the insertion rod 314 to pass through the mating seat 311, and the end of the insertion rod 314 is inserted into the insertion hole. Then, the opening and closing plate 21 and the mating block 23 are connected by bolts.
[0050] After the ceiling frames 1 are connected, the drive motor 47 drives the lead screw 48 to rotate, and the lead screw 48 drives the first sliding member 43 to slide, so that the first connecting rod 45 and the second connecting rod 46 drive the mounting frame 42 to move the ceiling frame 1 to the display position.
[0051] When the adjacent two flower frames 1 are disassembled, the opening and closing plate 21 separates from the mating block 23, the sleeve rod 324 pushes the opening and closing plate 21 to open, so that the extension cylinder 323 drives the slider to disengage from the floating block 312, and the plug rod 314 disengages from the plug hole, so that the adjacent two flower frames 1 are disconnected.
[0052] It is worth mentioning that the technical features of other components of the reversible disassembly and modification system for ultra-high space stretch ceiling involved in this patent application should be regarded as prior art. The specific structure, working principle, and possible control methods and spatial arrangement methods of these technical features can be adopted using conventional choices in the field, and should not be regarded as the inventive point of this patent. This patent will not be further elaborated in detail.
[0053] The above description is merely a preferred embodiment of the present invention and is not intended to limit the invention. Various modifications and variations can be made to the present invention by those skilled in the art. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present invention should be included within the scope of protection of the present invention.
Claims
1. A reversible dismantling and modification system for ultra-high space stretch ceilings, characterized in that, include: Several ceiling frames (1), each ceiling frame (1) has an assembly mechanism (2) and a disassembly mechanism (3) on both sides, and the assembly mechanism (2) and disassembly mechanism (3) of two adjacent ceiling frames (1) correspond to each other; The dismantling and alteration mechanism (3) includes a plug-in component (31) and an opening and closing component (32). The opening and closing component (32) is movably connected to the ceiling frame (1), and the plug-in component (31) is elastically connected to the ceiling frame (1). The plug-in component (31) corresponds to the assembly mechanism (2), and the opening and closing component (32) is linked with the plug-in component (31). When two adjacent ceiling frames (1) are connected, the two ceiling frames (1) are aligned so that the plug-in component (31) is aligned with the corresponding assembly mechanism (2), the opening and closing component (32) is closed, and rotates around the ceiling frame (1) to close so that the opening and closing component (32) pushes one end of the plug-in component (31) into the assembly mechanism (2) to connect the two ceiling frames (1). The opening and closing assembly (32) includes a fixed base (321), an extension member (322) and a slider, wherein the fixed base (321) is fixedly disposed on one side of the ceiling frame (1); The assembly mechanism (2) has an opening and closing plate (21), one end of which is hinged to the assembly mechanism (2), and the other end extends toward the plug-in assembly (31); The slider is slidably connected to the ceiling frame (1), and the two ends of the extension member (322) are respectively hinged to the slider and the opening and closing plate (21); When two adjacent ceiling frames (1) are connected, the opening and closing plate (21) rotates around the hinge to close, the opening and closing plate (21) pushes the extension member (322) to retract, and at the same time the extension member (322) drives the slider to slide along the ceiling frame (1) to push the plug-in assembly (31) so that the end of the plug-in assembly (31) is inserted into the assembly mechanism (2) to connect the two ceiling frames (1); When two adjacent ceiling frames (1) are disassembled, the extension member (322) pushes the opening and closing plate (21) to rotate around the hinge to open, the slider slides to disengage from the plug assembly (31), and the plug assembly (31) elastically resets so that the end of the plug assembly (31) disengages from the assembly mechanism (2).
2. The reversible dismantling and modification system for ultra-high space stretch ceilings as described in claim 1, characterized in that, The plug-in assembly (31) includes a mating seat (311), a floating block (312) and a floating spring (313). The floating block (312) is slidably disposed on one side of the ceiling frame (1), and the two ends of the floating spring (313) are respectively connected to the mating seat (311) and the floating block (312). The floating block (312) is provided with a plug rod (314) on the side facing the mating seat (311). The length of the plug rod (314) is greater than the thickness of the mating seat (311), and the mating seat (311) is provided with an assembly hole, which corresponds to the plug rod (314). in When two adjacent ceiling frames (1) are connected, the slider pushes the floating block (312) so that the floating block (312) drives the plug rod (314) through the assembly hole and inserts it into the assembly mechanism (2).
3. The reversible dismantling and modification system for ultra-high space stretch ceilings as described in claim 2, characterized in that, The extension member (322) includes an extension tube (323) and a sleeve (324). One end of the sleeve (324) is hinged to the opening and closing plate (21), and the other end is inserted into the extension tube (323). The extension tube (323) and the sleeve (324) are sealed together.
4. The reversible dismantling and modification system for ultra-high space stretch ceilings as described in claim 3, characterized in that, The assembly mechanism (2) includes an assembly block (22) and a mating block (23). The assembly block (22) corresponds to the fixed seat (321), and one end of the opening and closing plate (21) is hinged to the assembly block (22). The mating block (23) corresponds to the mating seat (311).
5. The reversible dismantling and modification system for ultra-high space stretch ceilings as described in claim 4, characterized in that, The assembly block (22) has a guide groove (24) on one side, and the fixed seat (321) has a guide block (325) on one side, with the guide groove (24) corresponding to the guide block (325); The mating block (23) has a plug hole on one side, which corresponds to the plug rod (314).
6. The reversible dismantling and modification system for ultra-high space stretch ceilings as described in claim 5, characterized in that, The ultra-high space flexible membrane ceiling reversible dismantling and modification system also includes at least one lifting mechanism (4). The lifting mechanism (4) includes a fixed frame (41), an installation frame (42), a first sliding member (43), a second sliding member (44), two first connecting rods (45) and two second connecting rods (46). The installation frame (42) is connected to the ceiling frame (1), and the fixed frame (41) is located directly above the installation frame (42). The first sliding member (43) and the second sliding member (44) are respectively slidably disposed on the fixed frame (41) and the mounting frame (42); The two ends of the first connecting rod (45) are hinged to the fixed frame (41) and the second sliding member (44) respectively, and the two ends of the second connecting rod (46) are hinged to the mounting frame (42) and the first sliding member (43) respectively, and the middle of the two connecting rods are hinged to each other.
7. The reversible dismantling and modification system for ultra-high space stretch ceilings as described in claim 6, characterized in that, The fixed frame (41) is also provided with a drive motor (47) and a lead screw (48). The drive motor (47) or its movable end is connected to the lead screw (48) for transmission, and the lead screw (48) is threadedly connected to the first sliding member (43).
8. The reversible dismantling and modification system for ultra-high space stretch ceilings as described in claim 7, characterized in that, The ceiling frame (1) has a mounting plane on one side, on which a stretch ceiling is suitable for installation.
9. A reversible dismantling and modification system and method for ultra-high space stretch ceilings, using the reversible dismantling and modification system for ultra-high space stretch ceilings as described in claim 8, characterized in that... When the two adjacent flower frames (1) are connected, the opening and closing plate (21) rotates around the hinge to close, the opening and closing plate (21) pushes the sleeve rod (324) to retract into the extension cylinder (323), and drives the extension cylinder (323) and the slider to slide towards the floating block (312). The floating block (312) drives the plug rod (314) to pass through the mating seat (311), and the end of the plug rod (314) is inserted into the plug hole. Then the opening and closing plate (21) and the mating block (23) are connected by bolts. After the ceiling frames (1) are connected, the drive motor (47) drives the lead screw (48) to rotate, and the lead screw (48) drives the first sliding member (43) to slide, so that the first connecting rod (45) and the second connecting rod (46) drive the mounting frame (42) to move the ceiling frame (1) to the display position. When the adjacent two flower frames (1) are disassembled, the opening and closing plate (21) separates from the mating block (23), the sleeve rod (324) pushes the opening and closing plate (21) to open, so that the extension cylinder (323) drives the slider to disengage from the floating block (312), and the plug rod (314) disengages from the plug hole, so that the adjacent two flower frames (1) are disconnected.