A suspended ceiling installation aid
By designing an outer and inner rod to form a column, combined with adjusting and lifting components, the problem of needing to raise the material for existing equipment was solved, enabling convenient placement and lifting transportation of ceiling panels, thus improving construction efficiency and safety.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ZHEJIANG ZHEJIANG SICHUAN CONSTRUCTION CO LTD
- Filing Date
- 2025-07-17
- Publication Date
- 2026-06-12
AI Technical Summary
Existing ceiling installation auxiliary equipment still requires lifting the ceiling panels to a certain height when placing materials, which affects construction efficiency.
A ceiling installation auxiliary device was designed, which consists of an outer rod and an inner rod forming a column. Combined with an adjusting component and a lifting component, the slider can slide on the slide groove and slide rail to adjust the height of the column. The device also facilitates the lifting and lowering of the support frame and the placement of the ceiling panel through a universal self-locking wheel and a rope system.
This enables convenient placement and lifting transportation of ceiling panels, improving construction safety and efficiency.
Smart Images

Figure CN224351584U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of ceiling installation technology, specifically to an auxiliary device for ceiling installation. Background Technology
[0002] Suspended ceilings serve to divide existing spaces, compensate for deficiencies in the original building structure, conceal some ceiling pipes, enhance decorative effects, enrich indoor lighting layers, and provide thermal and sound insulation, greatly increasing the comfort of the house. The installation steps for a suspended ceiling are: first, install screws; then, install the keel; and finally, install the ceiling panels. When installing the ceiling panels, they need to be installed on the keel frame. To improve the safety of workers and avoid manual lifting, auxiliary equipment can be used to assist in the installation of the ceiling panels.
[0003] A search of the utility model patent with publication number CN218375008U reveals an auxiliary device for ceiling panel installation. This device uses a panel bracket to support the ceiling panel, and then a lifting slide rail to transport the ceiling panel to the keel frame for installation. However, it has some shortcomings. When the slide rail is retracted to its lowest point, the panel bracket is still quite high off the ground. Although the panel bracket can tilt at a certain angle around the hinge point, its placement position still has a certain height, requiring workers to lift the ceiling panel to a higher position for placement, which is inconvenient for construction. Therefore, this application proposes an auxiliary device for ceiling installation. Utility Model Content
[0004] The purpose of this utility model is to solve the problem that although existing auxiliary equipment can support and lift the ceiling panel, it still requires the ceiling panel to be raised to a certain height when releasing the material, which is not conducive to construction. This utility model provides a ceiling installation auxiliary equipment.
[0005] To achieve the above objectives, this utility model specifically adopts the following technical solution:
[0006] A ceiling installation auxiliary device, comprising:
[0007] An outer rod has an inner rod inserted inside it. The outer rod is equipped with an adjusting component for adjusting the sliding of the inner rod. A base frame is provided at the bottom of the outer rod, and a universal self-locking wheel is provided at the bottom of the base frame.
[0008] The support frame has a sliding groove through one side of the outer rod, in which a slider is slidably inserted. The inner rod has a slide rail on one side, and the slider is slidably mounted on the slide rail. The support frame is mounted on the slider, and the outer rod is equipped with a lifting component for adjusting the slider's height.
[0009] Furthermore, the adjusting component includes a lead screw rotatably disposed within the outer rod, an inner rod threaded onto the lead screw, and an adjusting rod rotatably passing through one side of the outer rod. The adjusting rod is connected to the lead screw via a bevel gear assembly.
[0010] Furthermore, the lifting component includes a mounting base mounted on the outer rod, a guide rod rotatably passing through the mounting base, a pull rope connected to the guide rod, a ring connected to the top of the inner rod, the free end of the pull rope movably passing through the ring and connected to the slider, and an adjustment part for adjusting the rotation of the guide rod provided on the mounting base.
[0011] Furthermore, the adjusting part includes a worm gear fixed on the guide rod, and a worm gear that meshes with the worm gear is rotatably mounted on the mounting base.
[0012] Furthermore, pulleys are provided at the top of the inner rod and at both ends of the ring, and the pull rope is wound around the two pulleys in sequence.
[0013] Furthermore, the support frame includes a strut mounted on the slider, the end of the strut is provided with a support plate, and four support plates are provided on the outer periphery of the support plate.
[0014] Furthermore, the support plate includes an outer plate disposed on the support plate, an inner plate is movably inserted into the outer plate, and a knob with its end abutting against the inner plate is threaded through the outer plate.
[0015] Furthermore, anti-slip pads are provided on both the support plate and the inner plate.
[0016] Compared with the prior art, the beneficial effects of this utility model are as follows: In this utility model, by combining the outer rod and the inner rod into a column, and adjusting the height of the inner rod by adjusting the lifting of the inner rod, the height of the column can be adjusted. A sliding groove is opened on the outer rod, and a sliding rail is constructed on the inner rod. The slider slides in cooperation with the sliding groove and the sliding rail. Even after the column is adjusted in height, the slider can still slide smoothly along it. This allows the support frame to be lowered closer to the ground for easy placement of the ceiling panel, or the support frame to be raised to the top for easy lifting, transportation, or support installation of the ceiling panel. Attached Figure Description
[0017] Figure 1 This is a three-dimensional structural diagram of the present invention;
[0018] Figure 2 This is a three-dimensional structural cross-sectional view of the present invention;
[0019] Figure 3 This is another three-dimensional structural sectional view of the present utility model;
[0020] Figure 4 This is a three-dimensional structural diagram of the support frame of this utility model;
[0021] Figure 5 This is a three-dimensional sectional view of the support frame of this utility model;
[0022] Figure 6 This utility model Figure 1 Enlarged view of point A in the middle;
[0023] Figure 7 This utility model Figure 3 Enlarged view at point B in the middle;
[0024] Figure 8 This utility model Figure 3 Enlarged view of point C.
[0025] In the diagram: 1. Outer rod; 2. Inner rod; 3. Adjusting component; 4. Base frame; 5. Universal self-locking wheel; 6. Support frame; 7. Slide groove; 8. Slider; 9. Slide rail; 10. Lifting component; 11. Pulley; 12. Anti-slip mat; 301. Lead screw; 302. Adjusting rod; 303. Bevel gear assembly; 601. Support rod; 602. Support plate; 603. Support plate; 6031. Outer plate; 6032. Inner plate; 6033. Knob; 1001. Mounting base; 1002. Guide rod; 1003. Pull rope; 1004. Ring; 1005. Worm gear; 1006. Worm. Detailed Implementation
[0026] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the technical solutions of the embodiments of this utility model will be clearly and completely described below with reference to the accompanying drawings.
[0027] This embodiment provides a ceiling installation auxiliary device, mainly to solve the problem that although existing auxiliary devices can support and lift ceiling panels, the panels still need to be raised to a certain height when being lowered, which is not conducive to construction. The following technical solution is provided, which will be discussed in conjunction with... Figures 1-8 Please provide a detailed explanation:
[0028] A ceiling installation auxiliary device, comprising:
[0029] An outer rod 1 has an inner rod 2 inserted inside it. Both the outer rod 1 and the inner rod 2 are square rod structures. An adjusting piece 3 is provided on the outer rod 1 to adjust the sliding of the inner rod 2. The outer rod 1 and the inner rod 2 form a complete column. The two are slidably connected. The sliding height of the inner rod 2 can be adjusted by adjusting the adjusting piece 3, thereby adjusting the overall height of the column. A base frame 4 is provided at the bottom of the outer rod 1. A universal self-locking wheel 5 is provided at the bottom of the base frame 4. By providing a base frame 4 and a universal self-locking wheel 5 at the bottom of the outer rod 1, it is not only easy for the column to be erected stably, but also easy to move the column horizontally.
[0030] The support frame 6 has a groove 7 extending through one side of the outer rod 1, into which a slider 8 is slidably inserted. A slide rail 9 is constructed on one side of the inner rod 2, and the slider 8 is slidably mounted on the slide rail 9. The support frame 6 is mounted on the slider 8. A lifting component 10 for adjusting the raising and lowering of the slider 8 is provided on the outer rod 1. Preferably, as shown... Figure 7 As shown, the slide rail 9 and the slide groove 7 are located in the same position on the column. The slider 8 has a T-shaped cross-section, with grooves on both opposite sides. The two side walls of the slide groove 7 are slidably inserted into the two grooves, allowing the slider 8 to slide vertically along the slide groove 7, but not laterally. The slide rail 9 also has a T-shaped cross-section, allowing the slider 8 to slide vertically along the slide rail 9, but not laterally. The design of the slide groove 7 and the slide rail 9 allows the slider 8 to slide vertically not only along the outer rod 1, but also along the inner rod 2, and simultaneously along both the outer rod 1 and the inner rod 2 (e.g., ...). Figure 7 As shown), slider 8 can also slide from outer rod 1 to inner rod 2, or from inner rod 2 to outer rod 1. When installing the ceiling panel, the height of inner rod 2 can be adjusted by adjusting component 3 according to the height of the keel frame, thereby adjusting the overall height of the column. After adjusting the height of the column, slider 8 is lowered by lifting component 10, thereby lowering support frame 6 to near the ground. Then, the ceiling panel is placed on support frame 6. Then, slider 8 is raised by lifting component 10, thereby raising and lowering support frame 6 to the position of the keel frame, thereby realizing the lifting, transportation and support of the ceiling panel for easy installation.
[0031] In this design, the outer rod 1 and the inner rod 2 form a column. The height of the column is adjusted by adjusting the inner rod 2 through the adjusting component 3. A sliding groove 7 is provided on the outer rod 1, and a sliding rail 9 is constructed on the inner rod 2. The slider 8 slides in cooperation with the sliding groove 7 and the sliding rail 9. Even after the column is adjusted in height, the slider 8 can still slide smoothly along it. This allows the support frame 6 to be lowered closer to the ground for easy placement of the ceiling panel, or the support frame 6 to be raised to the top for easy lifting, transportation, or support installation of the ceiling panel.
[0032] like Figure 2As shown, in this embodiment, the adjusting component 3 includes a lead screw 301 rotatably disposed inside the outer rod 1, and an inner rod 2 threadedly sleeved on the lead screw 301. The inner rod 2 is a hollow rod body, and the lead screw 301 is threaded through the inner bottom wall of the inner rod 2. An adjusting rod 302 is rotatably disposed on one side of the outer rod 1. The adjusting rod 302 is connected to the lead screw 301 via a bevel gear assembly 303. Preferably, the bevel gear assembly 303 includes two bevel gears, which are respectively fixed on the lead screw 301 and the adjusting rod 302 and their teeth mesh. When it is necessary to adjust the raising and lowering of the inner rod 2, the adjusting rod 302 is twisted to rotate. Through the meshing of the teeth of the bevel gear assembly 303, the lead screw 301 is driven to rotate. When the lead screw 301 rotates, under the action of the thread and the sliding limit of the outer rod 1 on the inner rod 2, the inner rod 2 is raised and lowered.
[0033] like Figure 6 and Figure 8 As shown, in this embodiment, the lifting component 10 includes a mounting base 1001 mounted on the outer rod 1. A guide rod 1002 rotatably passes through the mounting base 1001, and a pull rope 1003 is connected to the guide rod 1002. A ring 1004 is connected to the top of the inner rod 2. The free end of the pull rope 1003 movably passes through the ring 1004 and is connected to the slider 8. The mounting base 1001 is provided with an adjustment part for adjusting the rotation of the guide rod 1002. When adjusting the lifting and lowering of the slider 8, the guide rod 1002 is rotated by the adjustment part, thereby winding the pull rope 1003 around the guide rod 1002, so that the pull rope 1003 drives the slider 8 to rise. When the guide rod 1002 is reversed to release the rope, the slider 8 is driven to fall. Since the inner rod 2 and the outer rod 1 are slidably inserted and cooperated, the overall height of the column is adjustable. Therefore, the soft lifting using the pull rope 1003 can not only ensure the stable lifting and lowering of the slider 8, but also complete the lifting and lowering of the slider 8 even after the height of the column is adjusted.
[0034] like Figure 8 As shown, in this embodiment, the adjusting part includes a worm gear 1005 fixed on the guide rod 1002, and a worm 1006 rotatably mounted on the mounting base 1001, which meshes with the worm gear 1005. Twisting the worm 1006 rotates the guide rod 1002 through the meshing of the worm 1006 and the worm gear 1005. The cooperation between the worm 1006 and the worm gear 1005 has a self-locking property, so that after the guide rod 1002 is rotated, it can be stably and self-locked.
[0035] like Figure 6As shown, in this embodiment, pulleys 11 are provided at the top of the inner rod 2 and at both ends of the ring 1004. The pull rope 1003 is wound around the two pulleys 11 in sequence. By providing pulleys 11 at both ends of the ring 1004 and winding the pull rope 1003 around the pulleys 11, the pulleys 11 can not only guide the pull rope 1003, but also reduce the friction of the pull rope 1003, so as to save effort.
[0036] like Figure 4 As shown, in this embodiment, the support frame 6 includes a strut 601 mounted on the slider 8. A support plate 602 is provided at the end of the strut 601, and four support plates 603 are provided on the outer periphery of the support plate 602. The frame composed of the support plate 602 and the four support plates 603 can not only stably support the ceiling panel, but also maximize weight reduction. Preferably, the strut 601 is an L-shaped rod, and the support plate 602 is located in its vertical section. Due to its L-shaped structure, when the slider 8 slides up and down to the highest point, the height of the support plate 602 is higher than that of the pulley 11, so as to ensure that the height of the ceiling panel is higher than the entire column, so as to facilitate the smooth installation of the ceiling panel.
[0037] like Figure 5 As shown, in this embodiment, the support plate 603 includes an outer plate 6031 disposed on the support plate 602, an inner plate 6032 movably inserted into the outer plate 6031, and a knob 6033 threaded through the outer plate 6031 with its end abutting against the inner plate 6032. The support plate 603 is composed of the outer plate 6031 and the inner plate 6032. By using the interlocking cooperation between the two, the overall length of the support plate 603 can be adjusted at any time. After the length is adjusted, the knob 6033 is turned so that its end abuts against the inner plate 6032. The frictional force of the contact is used to fix the outer plate 6031 and the inner plate 6032. The support frame 6 as a whole can be adjusted to be suitable for ceiling panels of different sizes, thereby improving its practicality.
[0038] like Figure 4 and Figure 5 As shown in this embodiment, anti-slip pads 12 are provided on both the support plate 602 and the inner plate 6032. Preferably, the anti-slip pads 12 are rubber pads. By providing anti-slip pads 12, the ceiling panels are more stable when placed and are less prone to displacement and slippage due to lifting and lowering. At the same time, when the ceiling panels are lifted and installed, scratches and top marks are less likely to be caused on the surface of the ceiling panels, thereby improving practicality.
[0039] The working process of this utility model is as follows: When installing the ceiling panel, the base frame 4 is placed on the ground. The inner rod 2 is adjusted by adjusting the inner rod 2 through the adjusting component 3 to adjust the overall height of the column, so that the height of the column matches the height of the ceiling in the room. The worm gear 1006 is rotated to drive the guide rod 1002 to rotate, and the pull rope 1003 is released, thereby driving the slider 8 to descend, lowering the support frame 6 close to the ground. Then the ceiling panel is placed on the support frame 6. The worm gear 1006 is then twisted to rotate, driving the guide rod 1002 to rotate, thereby winding the pull rope 1003 around the guide rod 1002, thereby driving the slider 8 to rise and fall, thereby raising and lowering the support frame 6 to the top of the column, thus lifting and transporting the ceiling panel, and supporting the ceiling panel during installation.
[0040] The above are merely preferred embodiments of this utility model, but the scope of protection of this utility model is not limited thereto. Any equivalent substitutions or modifications made by those skilled in the art within the scope of the technology disclosed in this utility model, based on the technical solution and inventive concept of this utility model, should be included within the scope of protection of this utility model.
Claims
1. A ceiling installation auxiliary device, characterized in that, include: An outer rod (1) is movably inserted into an inner rod (2). An adjusting component (3) for adjusting the sliding of the inner rod (2) is provided on the outer rod (1). A base frame (4) is provided at the bottom end of the outer rod (1). A universal self-locking wheel (5) is provided at the bottom of the base frame (4). The support frame (6) has a groove (7) through one side of the outer rod (1), and a slider (8) is slidably inserted in the groove (7). A slide rail (9) is constructed on one side of the inner rod (2), and the slider (8) is slidably sleeved on the slide rail (9). The support frame (6) is set on the slider (8), and a lifting component (10) for adjusting the lifting of the slider (8) is provided on the outer rod (1).
2. The ceiling installation auxiliary equipment according to claim 1, characterized in that: The adjusting component (3) includes a lead screw (301) rotatably disposed inside the outer rod (1), an inner rod (2) threadedly sleeved on the lead screw (301), and an adjusting rod (302) rotatably passing through one side of the outer rod (1). The adjusting rod (302) is connected to the lead screw (301) via a bevel gear assembly (303).
3. The ceiling installation auxiliary equipment according to claim 1, characterized in that: The lifting component (10) includes a mounting base (1001) on the outer rod (1), a guide rod (1002) rotatably passing through the mounting base (1001), a pull rope (1003) connected to the guide rod (1002), a ring (1004) connected to the top of the inner rod (2), the free end of the pull rope (1003) movably passing through the ring (1004) and connected to the slider (8), and an adjustment part for adjusting the rotation of the guide rod (1002) is provided on the mounting base (1001).
4. The ceiling installation auxiliary equipment according to claim 3, characterized in that: The adjustment unit includes a worm gear (1005) fixed on the guide rod (1002), and a worm (1006) rotatably mounted on the mounting base (1001) and meshing with the worm gear (1005).
5. The ceiling installation auxiliary equipment according to claim 3, characterized in that: The inner rod (2) is provided with pulleys (11) at the top and at both ends of the ring (1004), and the pull rope (1003) is wound around the two pulleys (11) in sequence.
6. The ceiling installation auxiliary equipment according to claim 1, characterized in that: The support frame (6) includes a strut (601) mounted on the slider (8), and a support plate (602) is provided at the end of the strut (601). Four support plates (603) are provided on the outer periphery of the support plate (602).
7. The ceiling installation auxiliary equipment according to claim 6, characterized in that: The support plate (603) includes an outer plate (6031) disposed on the support plate (602), an inner plate (6032) is movably inserted into the outer plate (6031), and a knob (6033) with its end abutting against the inner plate (6032) is threaded through the outer plate (6031).
8. The ceiling installation auxiliary equipment according to claim 7, characterized in that: Anti-slip pads (12) are provided on both the support plate (602) and the inner plate (6032).