A folding ceiling based on quick installation of sliding rails
By combining the design of the sliding rail device and the linkage mechanism, the problem of complex installation of prefabricated ceilings is solved, and fast and stable ceiling installation is achieved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- TIANJIN DAYIN BUILDING MATERIAL CO LTD
- Filing Date
- 2023-05-31
- Publication Date
- 2026-06-23
AI Technical Summary
Existing prefabricated ceiling installations are complex, involve numerous materials, and are complicated to operate, making rapid installation difficult.
It adopts a combination design of sliding rail device, integrated ceiling device, fixing device, linkage device and docking device, and achieves rapid assembly through sliding connection and linkage mechanism.
It improves installation speed and stability, simplifies the operation process, and reduces installation difficulty.
Smart Images

Figure CN116575630B_ABST
Abstract
Description
Technical Field
[0001] This invention belongs to the field of ceiling technology, specifically relating to a folding ceiling based on a sliding rail for quick installation. Background Technology
[0002] A suspended ceiling refers to a type of decoration applied to the top of a living space.
[0003] Currently, prefabricated ceiling systems on the market mainly have the following shortcomings.
[0004] (1) Prefabricated ceilings are complicated to install, and problems such as difficulty in mounting and installation may occur.
[0005] (2) Currently, the boards on the market are mainly made of the board itself. During installation, other profiles or keels are installed to increase the strength of the board and prevent problems such as board deformation. There are too many on-site procedures, and there are many materials, making the operation complicated. Summary of the Invention
[0006] In order to solve the above-mentioned technical problems, the present invention proposes a folding ceiling based on a sliding rail for quick installation.
[0007] The specific technical solution of the present invention is as follows: A folding ceiling based on sliding rail for quick installation includes: a sliding rail device, an integrated ceiling device, a first fixing device, a second fixing device, a docking device, and a linkage device. One end of each of the sliding rail devices is connected to the first fixing device, and the other end of each of the sliding rail devices is connected to the second fixing device. An integrated ceiling device is slidably connected between the sliding rail devices. One end of the integrated ceiling device is connected to the first fixing device, and the other end of the integrated ceiling device is connected to the linkage device and the second fixing device. The linkage device is connected to the second fixing device through multiple docking devices.
[0008] Furthermore, the first fixing device includes: a first housing, a base plate, a limiting hook, a hinged plate, a first bolt hole, and a first limiting plate. The first housing is provided with multiple base plates, and the multiple base plates are provided with limiting hooks. The multiple base plates are connected by a torsion spring and a hinged plate. The side end face of the first housing is provided with multiple first bolt holes, and the upper end face of the first housing is provided with a first limiting plate. The first limiting plate cooperates with multiple slide rail devices to achieve leveling.
[0009] Furthermore, the slide rail device includes: a second housing, a clamping plate, a first pad, a second pad, and second bolt holes. The clamping plate is connected inside the second housing. A first limiting plate is connected to the clamping plate and is located between the clamping plate and the second housing. A first pad is provided at the end of the clamping plate, and a second pad is provided at the end of the second housing. The second pad is located directly below the first pad and is slidably connected to the integrated ceiling device. Multiple second bolt holes are provided on the side end face of the second housing.
[0010] Furthermore, the integrated ceiling device includes: an intermediate connecting plate, a connecting shaft, a head connecting plate, a fixing block, a limiting shaft, a tail connecting plate, a C-shaped fixing hook, and a connecting block. Multiple intermediate connecting plates are connected to each other via the connecting shaft. The intermediate connecting plates are connected to the head connecting plate via the connecting shaft. The multiple intermediate connecting plates and the head connecting plate are slidably connected to a second pad. At least one connecting block is connected to the upper surface of the head connecting plate, and the connecting block is connected to a second fixing device. Multiple fixing blocks are installed on the side end face of the head connecting plate. A limiting shaft is connected between the multiple fixing blocks, and the limiting shaft cooperates with the limiting hook to achieve limiting. The intermediate connecting plate is connected to the tail connecting plate via the connecting shaft. A C-shaped fixing hook is installed on the side end face of the tail connecting plate, and the C-shaped fixing hook is connected to a linkage device.
[0011] Furthermore, the linkage device includes: a linkage rod, a linkage shaft, an anti-slip washer, a first guide wheel, and a connecting rod. The ends of the linkage rod are all connected to the linkage shaft, the linkage shaft is connected to the anti-slip washer, the anti-slip washer is connected to the second fixing device, the linkage shaft is rotatably connected to the first guide wheel, the first guide wheel is connected to the docking device, and the linkage rod is provided with a connecting rod, which is rotatably connected to the C-shaped fixing hook.
[0012] Furthermore, the docking device includes: a docking block, a second limiting plate, and a notch. The second limiting plate is connected to the upper surface of the docking block. The second limiting plate is connected to the clamping plate and is located between the clamping plate and the second housing. A notch is provided inside the docking block. The U-shaped notch cooperates with the first guide wheel to realize the displacement of the linkage rod.
[0013] Furthermore, the second fixing device includes: a third housing, a first transmission device, a second transmission device, and a U-shaped baffle. The first transmission device and the second transmission device are disposed inside the third housing. Both the first transmission device and the second transmission device are connected to the connecting block and to the anti-slip washer. The third housing is connected to the U-shaped baffle via a torsion spring, and the U-shaped baffle is located below the third housing. The U-shaped baffle is connected to the second housing.
[0014] Furthermore, the first transmission device includes: a traction cable, a J-type fixing buckle, a C-type fixing buckle, a second guide wheel, a round shaft, a cable storage compartment, and third bolt holes. A round shaft is installed inside the third housing, and a second guide wheel for guiding the traction cable is installed on the round shaft. A cable storage compartment for collecting the traction cable is installed inside the third housing. A J-type fixing buckle is installed at one end of the traction cable and is connected to a connecting block. A C-type fixing buckle is installed at the other end of the traction cable and is connected to an anti-slip washer. Multiple third bolt holes are provided on the side end face of the third housing.
[0015] Furthermore, the cable storage compartment includes: a fixed base, a cable drum, a cable baffle, a cable hole, and an L-shaped cable conduit. The fixed base is installed inside the third housing, and the cable drum is installed on the fixed base. The cable baffle is connected to the side end face of the cable drum by a torsion spring. The cable drum is provided with a cable hole, and the L-shaped cable conduit is connected to the cable drum. The L-shaped cable conduit communicates with the cable hole.
[0016] Furthermore, the second transmission device has the same structure as the first transmission device.
[0017] Beneficial effects:
[0018] This application utilizes an integrated ceiling device that is slidably connected between multiple sliding rail devices. One end of the integrated ceiling device is connected to a first fixing device, and the other end is connected to a linkage device and a second fixing device. The linkage device is connected to the second fixing device through multiple docking devices, thereby enabling the rapid assembly of the folding ceiling and improving the installation speed during the installation process.
[0019] This application features a first housing with multiple base plates, each with a limit hook. The base plates are connected by a torsion spring and an opening / closing plate. The side end face of the first housing has multiple first bolt holes, and the upper end face of the first housing has a first limit plate. The first limit plate cooperates with multiple slide rail devices to achieve leveling, thereby fixing the integrated ceiling device and improving stability.
[0020] This application features a clamping plate connected inside the second housing, a first limiting plate connected to the clamping plate and located between the clamping plate and the second housing, a first pad at the end of the clamping plate, and a second pad at the end of the second housing, the second pad being directly below the first pad and slidably connected to the integrated ceiling device. Multiple second bolt holes are provided on the side end face of the second housing, thereby limiting the position of the integrated ceiling device and preventing unevenness during installation.
[0021] This application connects multiple intermediate connecting plates via connecting shafts. The intermediate connecting plates are connected to a head connecting plate via connecting shafts. The multiple intermediate connecting plates and the head connecting plate are slidably connected to a second pad. At least one connecting block is connected to the upper surface of the head connecting plate, and the connecting block is connected to a second fixing device. Multiple fixing blocks are installed on the side end face of the head connecting plate, and a limiting shaft connects the multiple fixing blocks. The limiting shaft cooperates with a limiting hook to achieve limiting. The intermediate connecting plates are connected to a tail connecting plate via connecting shafts. A C-shaped fixing hook is installed on the side end face of the tail connecting plate, and the C-shaped fixing hook is connected to a linkage device. This allows for the installation of the ceiling in a single action, improving installation efficiency.
[0022] This application connects the ends of the linkage rods to linkage shafts, with anti-slip washers connected to the linkage shafts. The anti-slip washers are connected to the second fixing device. A first guide wheel is rotatably connected to the linkage shaft, and the first guide wheel is connected to the docking device. A connecting rod is provided on the linkage rod, and the connecting rod is rotatably connected to the C-shaped fixing hook. This realizes the connection between the linkage device and the docking device, improving the flexibility of the connection between the integrated ceiling device and the docking device.
[0023] This application uses a second limiting plate connected to the upper surface of the docking block. The second limiting plate is connected to the clamping plate and is located between the clamping plate and the second housing. A notch is provided inside the docking block. The U-shaped notch cooperates with the first guide wheel to realize the displacement of the linkage rod, thereby achieving temporary fixation of the linkage device and improving stability.
[0024] This application incorporates a first transmission device and a second transmission device within a third housing. Both the first and second transmission devices are connected to a connecting block and an anti-slip washer. The third housing is connected to a U-shaped baffle plate via a torsion spring, with the U-shaped baffle plate positioned below the third housing. The U-shaped baffle plate is connected to the second housing. This design enables the synchronous movement of the linkage shaft before the process of moving the first connecting plate is completed, thus improving the linkage performance.
[0025] This application utilizes a third housing containing a round shaft with a second guide wheel for guiding the traction cable. The third housing also contains a cable storage compartment for collecting the traction cable. One end of the traction cable is fitted with a J-type retaining buckle connected to a connecting block, while the other end is fitted with a C-type retaining buckle connected to an anti-slip washer. Multiple third bolt holes are provided on the side face of the third housing, thus enabling the first transmission device to fix the linkage rod and improving stability.
[0026] This application utilizes a fixed base installed inside the third housing, on which a wire spool is mounted. A wire baffle is connected to the side end face of the wire spool via a torsion spring. The wire spool has a wire hole, and an L-shaped wire conduit is connected to the wire spool, communicating with the wire hole. This allows for the temporary and orderly storage of any additional traction cables, preventing the integrated ceiling device from becoming stuck due to cross-linking during use.
[0027] This application improves synchronization by using a second transmission device with the same structure as the first transmission device to move the linkage rod into the third housing simultaneously. Attached Figure Description
[0028] Figure 1 This is a schematic diagram of the present invention;
[0029] Figure 2 This is a schematic diagram of the first fixing device structure of the present invention;
[0030] Figure 3 This is a cross-sectional view of the first fixing device structure of the present invention;
[0031] Figure 4 This is a schematic diagram of the slide rail device structure of the present invention;
[0032] Figure 5 This is a cross-sectional view of the integrated ceiling device structure of the present invention;
[0033] Figure 6 This is a schematic diagram of the integrated ceiling device structure of the present invention;
[0034] Figure 7 This is a schematic diagram of the linkage device structure of the present invention;
[0035] Figure 8 This is a schematic diagram of the docking device structure of the present invention;
[0036] Figure 9 This is a schematic diagram of the structure of the first transmission device of the present invention;
[0037] Figure 10 This is a schematic diagram of the cable storage compartment structure of the present invention;
[0038] Explanation of markings in the diagram:
[0039] Slide rail device 1, integrated ceiling device 2, first fixing device 3, second fixing device 4, docking device 5, linkage device 6, second housing 11, clamping plate 12, first pad 13, second pad 14, second bolt hole 15, intermediate connecting plate 21, connecting shaft 22, head connecting plate 23, fixing block 24, limiting shaft 25, tail connecting plate 26, C-shaped fixing hook 27, connecting block 28, first housing 31, base plate 32, limiting hook 33, opening and closing plate 34, first bolt hole 35, first limiting plate 36, third housing 4 1. First transmission device 42, second transmission device 43, U-shaped baffle 44, docking block 51, second limiting plate 52, notch 53, linkage round rod 61, linkage round shaft 62, anti-slip washer 63, first guide wheel 64, connecting rod 65, traction cable 421, J-type fixing buckle 422, C-type fixing buckle 423, second guide wheel 424, round shaft 425, wire storage compartment 426, third bolt hole 427, fixing seat 4261, wire drum 4262, wire stop plate 4263, wire hole 4264, L-shaped wire tube 4265. Detailed Implementation
[0040] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.
[0041] In the description of this invention, it should be understood that the terms "upper," "middle," "outer," "inner," etc., which indicate orientation or positional relationship, are only for the convenience of describing this invention and simplifying the description, and do not indicate or imply that the components or elements referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as limiting this invention.
[0042] Example 1: A folding ceiling based on a sliding rail for quick installation, combined with... Figure 1 The device includes: a sliding rail device 1, an integrated ceiling device 2, a first fixing device 3, a second fixing device 4, a docking device 5, and a linkage device 6. One end of each of the sliding rail devices 1 is connected to the first fixing device 3, and the other end of each of the sliding rail devices 1 is connected to the second fixing device 4. An integrated ceiling device 2 is slidably connected among the sliding rail devices 1. One end of the integrated ceiling device 2 is connected to the first fixing device 3, and the other end of the integrated ceiling device 2 is connected to the linkage device 6 and the second fixing device 4. The linkage device 6 is connected to the second fixing device 4 through multiple docking devices 5.
[0043] Among them, the holes of the integrated ceiling device 2 need to be reserved according to the customer's requirements. The sliding rail device 1, the integrated ceiling device 2, the first fixing device 3 and the second fixing device 4 are connected to form a frame. The docking device 5 is used to temporarily limit the integrated ceiling device 2 and the linkage device 6 during the installation process. It needs to be removed before the installation is completed. The linkage device 6 is used to connect the integrated ceiling device 2 and the second fixing device 4.
[0044] This application uses multiple sliding rail devices 1 to slidably connect an integrated ceiling device 2. One end of the integrated ceiling device 2 is connected to a first fixing device 3, and the other end of the integrated ceiling device 2 is connected to a linkage device 6 and a second fixing device 4. The linkage device 6 is connected to the second fixing device 4 through multiple docking devices 5, which realizes the rapid assembly of the folding ceiling and improves the installation speed during the installation process.
[0045] Example 2: Based on Example 1, combined with Appendix Figure 2 and attached Figure 3 As described above, the first fixing device 3 includes: a first housing 31, a base plate 32, a limiting hook 33, an opening and closing plate 34, first bolt holes 35, and a first limiting plate 36. The first housing 31 is provided with multiple base plates 32, and the multiple base plates 32 are provided with limiting hooks 33. The multiple base plates 32 are connected by torsion springs and the opening and closing plate 34. Multiple first bolt holes 35 are provided on the side end face of the first housing 31, and the first limiting plate 36 is provided on the upper end face of the first housing 31. The first limiting plate 36 cooperates with multiple slide rail devices 1 to achieve leveling.
[0046] This application features a first housing 31 with multiple base plates 32, each with a limiting hook 33. The base plates 32 are connected by a torsion spring and an opening / closing plate 34. The side end face of the first housing 31 has multiple first bolt holes 35, and the upper end face of the first housing 31 has a first limiting plate 36. The first limiting plate 36 cooperates with multiple slide rail devices 1 to achieve leveling, thereby fixing the integrated ceiling device 2 and improving stability.
[0047] Example 3: Based on Example 2, combined with Appendix Figure 4 As described above, the slide rail device 1 includes: a second housing 11, a clamping plate 12, a first pad 13, a second pad 14, and second bolt holes 15. The clamping plate 12 is connected inside the second housing 11. A first limiting plate 36 is connected to the clamping plate 12 and is located between the clamping plate 12 and the second housing 11. The clamping plate 12 is provided with a first pad 13 at its end. The second housing 11 is provided with a second pad 14 at its end. The second pad 14 is located directly below the first pad 13. The second pad 14 is slidably connected to the integrated ceiling device 2. Multiple second bolt holes 15 are provided on the side end face of the second housing 11.
[0048] The first pad 13 is used to horizontally limit the integrated ceiling device 2.
[0049] This application has a clamping plate 12 connected inside the second housing 11, a first limiting plate 36 connected to the clamping plate 12 and located between the clamping plate 12 and the second housing 11, a first pad 13 provided at the end of the clamping plate 12, a second pad 14 provided at the end of the second housing 11, the second pad 14 located directly below the first pad 13, the second pad 14 being slidably connected to the integrated ceiling device 2, and multiple second bolt holes provided on the side end face of the second housing 11, which realizes the limiting of the integrated ceiling device 2 and avoids unevenness of the integrated ceiling device 2 during installation.
[0050] Example 4: Based on Example 3, combined with Appendix Figure 5 and attached Figure 6The integrated ceiling device 2 includes: an intermediate connecting plate 21, a connecting shaft 22, a head connecting plate 23, a fixing block 24, a limiting shaft 25, a tail connecting plate 26, a C-shaped fixing hook 27, and a connecting block 28. Multiple intermediate connecting plates 21 are connected to each other via the connecting shaft 22. The intermediate connecting plates 21 are connected to the head connecting plate 23 via the connecting shaft 22. Multiple intermediate connecting plates 21 and the head connecting plate 23 are slidably connected to a second pad 14. At least one connecting block 28 is connected to the upper surface of the head connecting plate 23. The connecting block 28 is connected to a second fixing device 4. Multiple fixing blocks 24 are installed on the side surface of the head connecting plate 23. A limiting shaft 25 connects multiple fixing blocks 24. The limiting shaft 25 cooperates with the limiting hook 33 to achieve limiting. The intermediate connecting plate 21 is connected to the tail connecting plate 26 via the connecting shaft 22. A C-shaped fixing hook 27 is installed on the side surface of the tail connecting plate 26. The C-shaped fixing hook 27 is connected to a linkage device 6.
[0051] The first connecting plate 23 is used to connect with the first fixing device 3, and the tail connecting plate 26 is connected with the second fixing device 4 through the linkage device 6.
[0052] This application connects multiple intermediate connecting plates 21 via connecting shafts 22. The intermediate connecting plates 21 are connected to the head connecting plate 23 via connecting shafts 22. The multiple intermediate connecting plates 21 and the head connecting plate 23 are slidably connected to the second pad strip 14. At least one connecting block 28 is connected to the upper surface of the head connecting plate 23. The connecting block 28 is connected to the second fixing device 4. Multiple fixing blocks 24 are installed on the side surface of the head connecting plate 23. Limiting shafts 25 are connected between the multiple fixing blocks 24. The limiting shafts 25 cooperate with the limiting hooks 33 to achieve limiting. The intermediate connecting plates 21 are connected to the tail connecting plate 26 via connecting shafts 22. C-shaped fixing hooks 27 are installed on the side surface of the tail connecting plate 26. The C-shaped fixing hooks 27 are connected to the linkage device 6. This allows the ceiling to be installed in one action, improving installation efficiency.
[0053] Example 5: Based on Example 4, combined with Appendix Figure 7 The linkage device 6 includes: a linkage rod 61, a linkage shaft 62, an anti-slip washer 63, a first guide wheel 64, and a connecting rod 65. The linkage rod 61 is connected to the linkage shaft 62 at each end. The linkage shaft 62 is connected to the anti-slip washer 63, which is connected to the second fixing device 4. The first guide wheel 64 is rotatably connected to the linkage shaft 62 and is connected to the docking device 5. The linkage rod 65 is provided on the linkage rod 61 and is rotatably connected to the C-shaped fixing hook 27.
[0054] The anti-slip washer 63 is used to connect the linkage rod 61 to the second fixing device 4.
[0055] This application achieves the connection between the linkage device 6 and the docking device 5 by connecting the ends of the linkage rod 61 to the linkage shaft 62, with anti-slip washers 63 connected to the linkage shaft 62 and the anti-slip washers 63 connected to the second fixing device 4. A first guide wheel 64 is rotatably connected to the linkage shaft 62 and is connected to the docking device 5. A connecting rod 65 is provided on the linkage rod 61 and is rotatably connected to the C-shaped fixing hook 27, thereby improving the flexibility of the connection between the integrated ceiling device 2 and the docking device 5.
[0056] Example 6: Based on Example 5, combined with Appendix Figure 8 As described above, the docking device 5 includes: a docking block 51, a second limiting plate 52, and a notch 53. The second limiting plate 52 is connected to the upper surface of the docking block 51. The second limiting plate 52 is connected to the clamping plate 12 and is located between the clamping plate 12 and the second housing 11. The docking block 51 is provided with a notch 53. The U-shaped notch 53 cooperates with the first guide wheel 64 to realize the displacement of the linkage rod 61.
[0057] The notch 53 is used to temporarily fix the linkage device 6.
[0058] This application has a second limiting plate 52 connected to the upper surface of the docking block 51. The second limiting plate 52 is connected to the clamping plate 12 and is located between the clamping plate 12 and the second housing 11. A notch 53 is provided in the docking block 51. The U-shaped notch 53 cooperates with the first guide wheel 64 to realize the displacement of the linkage rod 61, thereby achieving temporary fixation of the linkage device 6 and improving stability.
[0059] Example 7: Based on Example 5, combined with Appendix Figure 1 The second fixing device 4 includes: a third housing 41, a first transmission device 42, a second transmission device 43, and a U-shaped baffle 44. The first transmission device 42 and the second transmission device 43 are disposed inside the third housing 41. Both the first transmission device 42 and the second transmission device 43 are connected to the connecting block 28. Both the first transmission device 42 and the second transmission device 43 are connected to the anti-slip washer 63. The third housing 41 is connected to the U-shaped baffle 44 through a torsion spring, and the U-shaped baffle 44 is located below the third housing 41. The U-shaped baffle 44 is connected to the second housing 11.
[0060] The first transmission device 42 and the second transmission device 43 are symmetrically arranged inside the third housing 41.
[0061] This application incorporates a first transmission device 42 and a second transmission device 43 within the third housing 41. Both the first transmission device 42 and the second transmission device 43 are connected to the connecting block 28 and to the anti-slip washer 63. The third housing 41 is connected to a U-shaped baffle 44 via a torsion spring, with the U-shaped baffle 44 located below the third housing 41. The U-shaped baffle 44 is connected to the second housing 11. This allows for the synchronous movement of the linkage shaft 62 before the process of moving the head connecting plate 23 is completed, thus improving the linkage performance.
[0062] Example 8: Based on Example 7, combined with Appendix Figure 9 As described above, the first transmission device 42 includes: a traction cable 421, a J-type fixing buckle 422, a C-type fixing buckle 423, a second guide wheel 424, a round shaft 425, a cable storage compartment 426, and third bolt holes 427. The round shaft 425 is installed inside the third housing 41, and the second guide wheel 424 for guiding the traction cable 421 is installed on the round shaft 425. The cable storage compartment 426 for collecting the traction cable 421 is installed inside the third housing 41. A J-type fixing buckle 422 is installed at one end of the traction cable 421 and is connected to the connecting block 28. A C-type fixing buckle 423 is installed at the other end of the traction cable 421 and is connected to the anti-slip washer 63. Multiple third bolt holes 427 are provided on the side end face of the third housing 41.
[0063] The cable storage compartment 426 is used to temporarily store the traction cable 421 with the extended length.
[0064] This application utilizes a circular shaft 425 installed inside a third housing 41, on which a second guide wheel 424 for guiding the traction cable 421 is mounted. A cable storage compartment 426 for collecting the traction cable 421 is also installed inside the third housing 41. A J-type fixing buckle 422 is installed at one end of the traction cable 421 and connects to a connecting block 28. A C-type fixing buckle 423 is installed at the other end of the traction cable 421 and connects to an anti-slip washer 63. Multiple third bolt holes 427 are provided on the side surface of the third housing 41, thus enabling the first transmission device 42 to fix the linkage rod 61 and improving stability.
[0065] Example 9: Based on Example 8, combined with Appendix Figure 10As described above, the cable storage compartment 426 includes: a fixed base 4261, a cable drum 4262, a cable baffle 4263, a wire hole 4264, and an L-shaped wire conduit 4265. The fixed base 4261 is installed inside the third housing 41, and the cable drum 4262 is installed on the fixed base 4261. The cable baffle 4263 is connected to the side end face of the cable drum 4262 by a torsion spring. The cable drum 4262 is provided with a wire hole 4264, and the L-shaped wire conduit 4265 is connected to the cable drum 4262. The L-shaped wire conduit 4265 communicates with the wire hole 4264.
[0066] This application utilizes a fixed base 4261 installed inside the third housing 41, on which a wire spool 4262 is mounted. A wire baffle 4263 is connected to the side end face of the wire spool 4262 via a torsion spring. A wire hole 4264 is provided on the wire spool 4262, and an L-shaped wire conduit 4265 is connected to the wire spool 4262. The L-shaped wire conduit 4265 communicates with the wire hole 4264, thereby enabling the temporary and orderly storage of the traction cables 421 that need to be replenished. This avoids the situation where the traction cables 421 cross and get stuck during use, preventing the integrated ceiling device 2 from being unable to move.
[0067] Example 10: Based on Example 8, combined with Appendix Figure 1 and attached Figure 9 To clarify, the second transmission device 43 has the same structure as the first transmission device 42.
[0068] The second transmission device 43 is symmetrically installed with the first transmission device 42.
[0069] This application achieves simultaneous movement of the linkage rod 61 into the third housing 41 by using the second transmission device 43, which has the same structure as the first transmission device 42, thereby improving synchronization.
[0070] Work process:
[0071] The first housing 31, the second housing 11, and the third housing 41 are fixed to the wall with expansion bolts. The U-shaped cover plate 44 is opened, and the connecting block 51 is fixed between the second housing 11 and the clamping plate 12 by the second limiting plate 52. The linkage device 6 of the pre-rolled integrated ceiling device 2 is hung between multiple notches 53 by the first guide wheel 64. The C-shaped fixing buckle 423 is fixedly connected to the anti-slip washer 63, and multiple J-shaped fixing buckles 422 are connected to the connecting block 28. The limiting shaft 25 is pulled to make the first connecting plate 23 and multiple intermediate connecting plates 21 slide between the first pad strip 13 and the second pad strip 14. Open the opening and closing plate 34, move the limiting shaft 25 to the first housing 31 and connect and fix it with the limiting hook 33 inside the first housing 31. The opening and closing plate 34 is reset. During the movement of the limiting shaft 25, the first connecting plate 23 is connected through the connecting block 28 and multiple J-shaped fixing buckles 422 to pull the traction cable 421. The second guide wheel 424 pulls out the traction cable 421 in the cable storage compartment 426. Then, the C-shaped fixing buckle 423 moves the linkage round rod 61 into the third housing 41, disengages the docking device 5 from the slide rail device 1, and resets the U-shaped shielding plate 44. The rapid installation of the ceiling is thus completed.
[0072] In the description of this specification, references to terms such as "an embodiment," "example," "specific example," etc., indicate that a specific feature, structure, material, or characteristic described in connection with that embodiment or example is included in at least one embodiment or example of the invention. In this specification, illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples.
[0073] The preferred embodiments of the present invention disclosed above are merely illustrative of the invention. These preferred embodiments do not exhaustively describe all details, nor do they limit the invention to the specific implementations described. Clearly, many modifications and variations can be made based on the content of this specification. This specification selects and specifically describes these embodiments to better explain the principles and practical applications of the invention, thereby enabling those skilled in the art to better understand and utilize the invention. The invention is limited only by the claims and their full scope and equivalents.
Claims
1. A folding suspended ceiling based on quick installation of sliding rails, characterized in that, The utility model relates to a kind of integrated ceiling device and sliding rail device, including: Sliding rail device (1), integrated ceiling device (2), first fixed device (3), second fixed device (4), butt joint device (5) and linkage device (6), multiple the sliding rail device (1) one end is connected with first fixed device (3), multiple the sliding rail device (1) other end is connected with second fixed device (4), multiple the sliding rail device (1) between sliding connection has integrated ceiling device (2), integrated ceiling device (2) one end is connected with first fixed device (3), integrated ceiling device (2) other end is connected with linkage device (6) and second fixed device (4), linkage device (6) is connected with second fixed device (4) by multiple butt joint device (5); The first fixed device (3) includes: first shell (31), bottom plate (32), limit hook (33), open-close plate (34), first bolt hole (35) and first limiting plate (36), the first shell (31) is provided with multiple bottom plates (32), multiple the bottom plate (32) is provided with limit hook (33), multiple the bottom plate (32) is connected with open-close plate (34) by torsion spring, first shell (31) side end face is provided with multiple first bolt hole (35), first shell (31) upper end surface is provided with first limiting plate (36), first limiting plate (36) cooperates with multiple sliding rail device (1) and realizes leveling; The sliding rail device (1) includes: second shell (11), clamping plate (12), first pad strip (13), second pad strip (14) and second bolt hole (15), the second shell (11) is connected with clamping plate (12), first limiting plate (36) is connected with clamping plate (12) and first limiting plate (36) is located between clamping plate (12) and second shell (11), clamping plate (12) end is provided with first pad strip (13), second shell (11) end is provided with second pad strip (14), second pad strip (14) is located below first pad strip (13), second pad strip (14) is slidably connected with integrated ceiling device (2), second shell (11) side end face is provided with multiple second bolt hole (15).
2. The folding suspended ceiling based on the quick installation of slide rail according to claim 1, characterized in that, The integrated ceiling device (2) comprises: intermediate connecting plates (21), connecting shafts (22), head connecting plates (23), fixed blocks (24), limiting shafts (25), tail connecting plates (26), C-shaped fixed hooks (27) and connecting blocks (28), a plurality of intermediate connecting plates (21) are connected through connecting shafts (22), the intermediate connecting plate (21) is connected with the head connecting plate (23) through the connecting shaft (22), a plurality of intermediate connecting plates (21) and head connecting plates (23) are connected with the second pad strip (14) in sliding mode, at least one connecting block (28) is connected on the upper end surface of the head connecting plate (23), the connecting block (28) is connected with the second fixing device (4), a plurality of fixed blocks (24) are installed on the side end surface of the head connecting plate (23), a plurality of fixed blocks (24) are connected with limiting shafts (25), the limiting shafts (25) are matched with the limiting hook (33) to realize limiting, the intermediate connecting plate (21) is connected with the tail connecting plate (26) through the connecting shaft (22), the C-shaped fixed hook (27) is installed on the side end surface of the tail connecting plate (26), and the C-shaped fixed hook (27) is connected with the linkage device (6).
3. The foldable suspended ceiling based on the quick installation of sliding rails according to claim 2, characterized in that, The linkage device (6) comprises: linkage round rods (61), linkage round shafts (62), anti-skid washers (63), first guide wheels (64) and connecting rods (65), the linkage round rods (61) are connected with the linkage round shafts (62) at the ends, the linkage round shafts (62) are connected with the anti-skid washers (63), the anti-skid washers (63) are connected with the second fixing device (4), the linkage round shafts (62) are rotatably connected with the first guide wheels (64), the first guide wheels (64) are connected with the butt joint device (5), the connecting rods (65) are arranged on the linkage round rods (61), and the connecting rods (65) are rotatably connected with the C-shaped fixed hooks (27).
4. The foldable suspended ceiling based on the quick installation of sliding rails according to claim 3, characterized in that, The butt joint device (5) comprises: butt joint blocks (51), second limiting plates (52) and notches (53), the second limiting plates (52) are connected on the upper end surfaces of the butt joint blocks (51), the second limiting plates (52) are connected with the clamping plates (12) and located between the clamping plates (12) and the second housings (11), the notches (53) are arranged in the butt joint blocks (51), and the U-shaped notches (53) are matched with the first guide wheels (64) to realize displacement of the linkage round rods (61).
5. The foldable suspended ceiling based on the quick installation of sliding rails according to claim 3, characterized in that, The second fixing device (4) comprises: third housings (41), first transmission devices (42), second transmission devices (43) and U-shaped shielding plates (44), the first transmission devices (42) and the second transmission devices (43) are arranged in the third housings (41), the first transmission devices (42) and the second transmission devices (43) are connected with the connecting blocks (28), the first transmission devices (42) and the second transmission devices (43) are connected with the anti-skid washers (63), the third housings (41) are connected with the U-shaped shielding plates (44) through torsional springs and the U-shaped shielding plates (44) are located below the third housings (41), and the U-shaped shielding plates (44) are connected with the second housings (11).
6. The foldable suspended ceiling based on the quick installation of sliding rails according to claim 5, characterized in that, The first transmission device (42) comprises a traction cable (421), a J-shaped fixing buckle (422), a C-shaped fixing buckle (423), a second guide wheel (424), a round shaft (425), a wire storage bin (426) and a third bolt hole (427), the third shell (41) is internally provided with the round shaft (425), the round shaft (425) is provided with the second guide wheel (424) for guiding the traction cable (421), the third shell (41) is internally provided with the wire storage bin (426) for collecting the traction cable (421), one end of the traction cable (421) is provided with the J-shaped fixing buckle (422), the J-shaped fixing buckle (422) is connected with the connecting block (28), the other end of the traction cable (421) is provided with the C-shaped fixing buckle (423), the C-shaped fixing buckle (423) is connected with the anti-skid washer (63), and a plurality of third bolt holes (427) are arranged on the side end face of the third shell (41).
7. The foldable suspended ceiling based on the quick installation of sliding rails according to claim 6, characterized in that, The wire storage bin (426) comprises a fixing seat (4261), a wire barrel (4262), a wire blocking plate (4263), a wire guide hole (4264) and an L-shaped wire guide pipe (4265), the third shell (41) is internally provided with the fixing seat (4261), the fixing seat (4261) is provided with the wire barrel (4262), the wire barrel (4262) is provided with the wire blocking plate (4263) on the side end face through a torsional spring, the wire barrel (4262) is provided with the wire guide hole (4264), and the wire barrel (4262) is connected with the L-shaped wire guide pipe (4265), and the L-shaped wire guide pipe (4265) is in communication with the wire guide hole (4264).
8. The foldable suspended ceiling based on the quick installation of sliding rails according to claim 6, characterized in that, The second transmission device (43) has the same structure as the first transmission device (42).