A building wall panel mounting structure

The installation structure, which uses a rotating threaded rod and a sliding movable frame, solves the problems of complex and inefficient installation of traditional building wall panels, enabling rapid connection and disassembly, and is suitable for high-altitude operations and large-area installations.

CN224495487UActive Publication Date: 2026-07-14

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Filing Date
2025-08-07
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Traditional methods of installing building wall panels are complex and inefficient, especially in high-altitude operations or large-area installation scenarios, which prolong the construction period.

Method used

The installation structure adopts a rotating threaded rod and a sliding frame along the limiting groove. Through the cooperation of the limiting groove and the silicone gasket, quick connection and disassembly can be achieved. The bevel gear transmission enables quick installation and disassembly without additional tools.

Benefits of technology

It enables rapid connection and disassembly of building wall panels, simplifies the operation process, shortens the construction cycle, and is suitable for high-altitude operations and large-area installations.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to building wallboard installation technical field especially relates to a kind of building wallboard installation structure, including plate body, installation component, rotating component and operating component, the inside of plate body is provided with installation component, one side of plate body is provided with rotating component, one side of rotating component is provided with operating component, installation component includes threaded rod, first bevel gear, L type connecting frame, limit slot, moving frame and silica gel gasket, the inside of plate body is provided with threaded rod, there are two opposite threads on threaded rod, the outside of threaded rod is provided with first bevel gear, first bevel gear and threaded rod key groove connection, the outside of plate body is provided with L type connecting frame, L type connecting frame is provided with four groups;The utility model rotates by making threaded rod;Moving frame is embedded in the limit slot of adjacent plate body along limit slot and is slid, realizes quick connection;Reverse operation can be disassembled, whole process does not need additional tool, shortens single piece wallboard dismounting time.
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Description

Technical Field

[0001] This utility model relates to the field of building wall panel installation technology, and in particular to a building wall panel installation structure. Background Technology

[0002] In the field of building wall panel installation technology, traditional wall panel installation structures generally adopt welding, bolt fastening or snap-fit ​​connection methods; for example, welding connection requires the permanent fixing of the joint between adjacent wall panels by electric welding equipment, bolt connection requires the pre-embedded metal connectors on the edge of the wall panel and locking them with nuts, and snap-fit ​​connection relies on the pre-set concave and convex tenon structure to achieve splicing.

[0003] While these technologies can meet basic installation requirements, traditional installation methods are complex and inefficient. For example, bolted connections require aligning the pre-drilled holes one by one along the edge of the wall panel during installation, and then tightening the nuts one by one with a power tool. Disassembly requires the reverse operation, making the whole process time-consuming. This is especially true in high-altitude operations or large-area wall panel installation scenarios, where the construction period is significantly extended.

[0004] Therefore, to address the above problems, a building wall panel installation structure is proposed. By rotating the threaded rod, the moving frame slides along the limiting groove and embeds into the limiting groove of the adjacent panel, achieving quick connection. Disassembly can be performed by reversing the operation, without the need for additional tools, thus shortening the assembly and disassembly time of a single wall panel. Utility Model Content

[0005] To overcome the problems that exist in the daily use of traditional building wall panels, where the traditional installation method requires aligning each pre-drilled hole on the edge of the wall panel with a power tool and then tightening the nuts one by one, and disassembly requires the reverse operation, the whole process is time-consuming.

[0006] The technical solution of this utility model is as follows: a building wall panel installation structure, including a panel body, an installation component, a rotating component, and an operating component. The installation component is provided on the inner side of the panel body, the rotating component is provided on one side of the panel body, and the operating component is provided on one side of the rotating component. The installation component includes a threaded rod, a first bevel gear, an L-shaped connecting frame, a limiting groove, a movable frame, and a silicone gasket. The threaded rod is provided on the inner side of the panel body, and the threaded rod has two opposite threads. The first bevel gear is provided on the outer side of the threaded rod, and the first bevel gear and the threaded rod are connected by a keyway. The L-shaped connecting frame is provided on the outer side of the panel body, and four sets of L-shaped connecting frames are provided. The four sets of L-shaped connecting frames are located on the four sides of the panel body respectively. A limiting groove is opened on the inner side of the panel body, and the limiting groove passes through the L-shaped connecting frame. The movable frame is provided on the inner side of the limiting groove, and the movable frame is slidably connected to the limiting groove. The movable frame and the threaded rod are threadedly connected. A silicone gasket is provided on one side of the L-shaped connecting frame.

[0007] Preferably, by placing two sets of panels side by side and interlocking the L-shaped connecting frames of the two sets of panels in opposite directions, the limiting grooves of different panels are aligned. The silicone gasket between the two sets of L-shaped connecting frames is used to compensate for the deformation of the wall panel caused by foundation settlement or temperature difference. By rotating the first bevel gear, the threaded rod is driven to rotate. The rotation of the threaded rod drives the moving frame to slide along the limiting groove. The moving frame slides along the limiting groove and embeds into the limiting groove of another panel, thereby quickly connecting and assembling the two sets of panels. Simply reverse the first bevel gear to retract the moving frame and quickly disassemble the assembled panel, thus realizing the rapid assembly and disassembly of the building wall panel.

[0008] Preferably, the rotating assembly includes a fixed rod and a second bevel gear. The fixed rod is provided on one side of the plate, and the second bevel gear is provided on the outside of the fixed rod. The second bevel gear and the first bevel gear are meshed and connected, and the second bevel gear and the fixed rod are rotatably connected.

[0009] Preferably, the rotating assembly also includes a fixed disk and balls, with the fixed disk provided on one side of the bevel gear and balls provided on the side of the fixed disk, and multiple sets of balls are provided.

[0010] Preferably, the rotating assembly also facilitates the fixing ring, with a fixing ring provided on the inner side of the plate, and the fixing ring and the fixing plate are connected by ball bearings.

[0011] Preferably, the operating component includes a fixing groove and a first connecting plate, the fixing groove is provided on the side of the fixing plate, and the first connecting plate is provided on the inner side of the fixing groove.

[0012] Preferably, the operating component further includes a first connecting rod and a second connecting plate, wherein the first connecting rod is disposed on the inner side of the first connecting plate and the first connecting plate and the first connecting rod are rotatably connected, and the second connecting plate is disposed on the inner side of the fixing groove and the second connecting plate and the first connecting rod are rotatably connected.

[0013] Preferably, the operating component also includes a second connecting rod, which is provided on one side of the first connecting plate, and the second connecting rod and the second connecting plate are connected to each other.

[0014] The beneficial effects of this utility model are:

[0015] By placing two sets of panels side by side and interlocking the L-shaped connecting frames of the two sets of panels in opposite directions, the limiting grooves of different panels are aligned. The silicone gasket between the two sets of L-shaped connecting frames is used to compensate for the deformation of the wall panels caused by foundation settlement or temperature difference. By rotating the first bevel gear, the threaded rod is driven to rotate. The rotation of the threaded rod drives the moving frame to slide along the limiting groove. The moving frame slides along the limiting groove and embeds into the limiting groove of another panel, thereby quickly connecting and assembling the two sets of panels. Simply reverse the first bevel gear to retract the moving frame and quickly disassemble the assembled panels, thus achieving rapid assembly and disassembly of building wall panels. Attached Figure Description

[0016] Figure 1 The diagram shown is a first three-dimensional structural schematic of the building wall panel installation structure of this utility model.

[0017] Figure 2 The diagram shown is a second three-dimensional structural schematic of the building wall panel installation structure of this utility model;

[0018] Figure 3 The diagram shown is a first cross-sectional view of the building wall panel installation structure of this utility model.

[0019] Figure 4 The diagram shown is a second cross-sectional view of the building wall panel installation structure of this utility model.

[0020] Explanation of reference numerals in the attached drawings: 1. Plate; 101. Threaded rod; 102. First bevel gear; 103. L-shaped connecting frame; 104. Limiting groove; 105. Moving frame; 106. Silicone gasket; 201. Fixing rod; 202. Second bevel gear; 203. Fixing disc; 204. Ball bearing; 205. Fixing ring; 301. Fixing groove; 302. First connecting plate; 303. First connecting rod; 304. Second connecting plate; 305. Second connecting rod. Detailed Implementation

[0021] The present invention will be further described below with reference to the accompanying drawings and embodiments.

[0022] Please see Figure 1 and Figure 2This utility model provides an embodiment: a building wall panel installation structure, including a panel 1, an installation component, a rotating component, and an operating component. The installation component is provided on the inner side of the panel 1, the rotating component is provided on one side of the panel 1, and the operating component is provided on one side of the rotating component. The installation component includes a threaded rod 101, a first bevel gear 102, an L-shaped connecting frame 103, a limiting groove 104, a moving frame 105, and a silicone gasket 106. The threaded rod 101 is provided on the inner side of the panel 1, and the threaded rod 101 has two opposite threads. The first bevel gear is provided on the outer side of the threaded rod 101. Gear 102, first bevel gear 102 and threaded rod 101 are keyway connected, L-shaped connecting frame 103 is provided on the outer side of plate 1, and four sets of L-shaped connecting frames 103 are provided. The four sets of L-shaped connecting frames 103 are located on the four sides of plate 1 respectively. Limiting groove 104 is opened on the inner side of plate 1. Limiting groove 104 passes through L-shaped connecting frame 103. Moving frame 105 is provided on the inner side of limiting groove 104. Moving frame 105 and limiting groove 104 are slidably connected. Moving frame 105 and threaded rod 101 are threadedly connected. Silicone gasket 106 is provided on one side of L-shaped connecting frame 103.

[0023] Please see Figure 3 and Figure 4 In this embodiment, the rotating assembly includes a fixed rod 201 and a second bevel gear 202. The fixed rod 201 is provided on one side of the plate 1, and the second bevel gear 202 is provided on the outer side of the fixed rod 201. The second bevel gear 202 and the first bevel gear 102 are meshed and connected. The second bevel gear 202 and the fixed rod 201 are rotatably connected. The rotating assembly also includes a fixed disk 203 and ball bearings 204. The fixed disk 203 is provided on one side of the bevel gear, and the ball bearings 204 are provided on the side of the fixed disk 203. Multiple sets of ball bearings 204 are provided. The rotating assembly also includes a fixed ring 205. The fixed ring 205 is provided on the inner side of the plate 1. The fixed ring 205 and the fixed plate are rotatably connected by the ball bearings 204. In use, the rotation of the fixed disk 203 drives the second bevel gear 202 to rotate, and the rotation of the second bevel gear 202 drives the first bevel gear 102 to rotate.

[0024] The operating component includes a fixing groove 301 and a first connecting plate 302. The fixing groove 301 is provided on the side of the fixing plate 203, and the first connecting plate 302 is provided on the inner side of the fixing groove 301. The operating component also includes a first connecting rod 303 and a second connecting plate 304. The first connecting rod 303 is provided on the inner side of the first connecting plate 302, and the first connecting plate 302 and the first connecting rod 303 are rotatably connected. The second connecting plate 304 is provided on the inner side of the fixing groove 301, and the second connecting plate 304 and the first connecting rod 303 are rotatably connected. The operating component also includes a second connecting rod 305. The second connecting rod 305 is provided on one side of the first connecting plate 302, and the second connecting rod 305 and the second connecting plate 304 are connected to each other. In use, the first connecting plate 302 and the second connecting plate 304 are rotated out of the fixing groove 301 by moving the second connecting rod 305. The fixing plate 203 is rotated by rotating the second connecting rod 305.

[0025] During operation, the two sets of plates 1 to be spliced ​​are first placed side by side, so that the L-shaped connecting frames 103 of the adjacent plates 1 are in a reverse staggered interlocking state, ensuring that the limiting grooves 104 of the two sets of plates 1 are aligned to form a continuous channel; the second connecting rod 305 of the operating component is pulled outward to unfold the first connecting plate 302 and the second connecting plate 304 from the fixing groove 301; the second connecting rod 305 is rotated clockwise to drive the fixing plate 203 and the second bevel gear 202 to rotate, and the second bevel gear 202 drives the first bevel gear 102 to rotate through meshing transmission, thereby driving the threaded rod 101 to rotate;

[0026] The threaded rod 101 drives two sets of movable frames 105 to slide towards each other along the limiting groove 104 through a bidirectional threaded structure. The ends of the movable frames 105 are embedded in the limiting groove 104 of the adjacent plate 1. With the elastic compensation of the silicone pad 106, the mechanical locking connection of the two sets of plate 1 is completed.

[0027] Rotate the second connecting rod 305 counterclockwise, and drive the threaded rod 101 to rotate in the opposite direction through the bevel gear transmission mechanism; the threaded rod 101 drives the moving frame 105 to slide in the opposite direction along the limiting groove 104, so that the end of the moving frame 105 completely exits from the limiting groove 104 of the adjacent plate 1; after the moving frame 105 returns to the initial position, the two sets of plates 1 are separated to both sides, the L-shaped connecting frame 103 disengages from the interlocking state, and the wall panel is disassembled; the silicone gasket 106 restores its initial shape through elastic deformation, providing deformation compensation margin for the next installation.

[0028] Through the above steps, by placing two sets of panels 1 side by side and interlocking the L-shaped connecting frames 103 of the two sets of panels 1 in opposite directions, the limiting grooves 104 of different panels 1 are aligned. The silicone gaskets 106 between the two sets of L-shaped connecting frames 103 are used to compensate for the deformation of the wall panels caused by foundation settlement or temperature difference. By rotating the first bevel gear 102, the threaded rod 101 is driven to rotate. The rotation of the threaded rod 101 drives the moving frame 105 to slide along the limiting groove 104. The moving frame 105 slides along the limiting groove 104 and embeds into the limiting groove 104 of the other panel 1, thereby quickly connecting and assembling the two sets of panels 1. Simply reverse the first bevel gear 102 to retract the moving frame 105 to quickly disassemble the assembled panel 1, thereby achieving rapid assembly and disassembly of the building wall panels.

[0029] The embodiments of the present invention have been described in detail above with reference to the accompanying drawings. However, the present invention is not limited to the above embodiments. Within the scope of knowledge possessed by those skilled in the art, various changes can be made without departing from the spirit of the present invention.

Claims

1. A building wall panel installation structure, comprising a panel (1), characterized in that: It also includes an installation component, a rotating component, and an operating component. The installation component is provided on the inner side of the plate (1), the rotating component is provided on one side of the plate (1), and the operating component is provided on one side of the rotating component. The installation component includes a threaded rod (101), a first bevel gear (102), an L-shaped connecting bracket (103), a limiting groove (104), a moving bracket (105), and a silicone pad (106). The threaded rod (101) is provided on the inner side of the plate (1), and the threaded rod (101) has two opposite threads. The first bevel gear (102) is provided on the outer side of the threaded rod (101). The first bevel gear (102) and the threaded rod (101) Keyway connection, an L-shaped connecting frame (103) is provided on the outer side of the plate (1), and four sets of L-shaped connecting frames (103) are provided. The four sets of L-shaped connecting frames (103) are located on the four sides of the plate (1). A limiting groove (104) is opened on the inner side of the plate (1). The limiting groove (104) passes through the L-shaped connecting frame (103). A movable frame (105) is provided on the inner side of the limiting groove (104). The movable frame (105) and the limiting groove (104) are slidably connected. The movable frame (105) and the threaded rod (101) are threadedly connected. A silicone gasket (106) is provided on one side of the L-shaped connecting frame (103).

2. The building wall panel installation structure according to claim 1, characterized in that: The rotating assembly includes a fixed rod (201) and a second bevel gear (202). The fixed rod (201) is provided on one side of the plate (1), and the second bevel gear (202) is provided on the outside of the fixed rod (201). The second bevel gear (202) and the first bevel gear (102) are meshed and connected, and the second bevel gear (202) and the fixed rod (201) are rotatably connected.

3. The building wall panel installation structure according to claim 2, characterized in that: The rotating assembly also includes a fixed disk (203) and balls (204). The fixed disk (203) is provided on one side of the bevel gear, and the balls (204) are provided on the side of the fixed disk (203). There are multiple sets of balls (204).

4. The building wall panel installation structure according to claim 3, characterized in that: The rotating assembly also facilitates the fixing ring (205). The fixing ring (205) is provided on the inner side of the plate (1). The fixing ring (205) and the fixing plate are rotatably connected by ball bearings (204).

5. The building wall panel installation structure according to claim 3, characterized in that: The operating component includes a fixing groove (301) and a first connecting plate (302). The fixing groove (301) is provided on the side of the fixing plate (203), and the first connecting plate (302) is provided on the inner side of the fixing groove (301).

6. The building wall panel installation structure according to claim 5, characterized in that: The operating components also include a first connecting rod (303) and a second connecting plate (304). The first connecting rod (303) is provided on the inner side of the first connecting plate (302), and the first connecting plate (302) and the first connecting rod (303) are rotatably connected. The second connecting plate (304) is provided on the inner side of the fixing groove (301), and the second connecting plate (304) and the first connecting rod (303) are rotatably connected.

7. The building wall panel installation structure according to claim 6, characterized in that: The operating component also includes a second connecting rod (305), which is provided on one side of the first connecting plate (302), and the second connecting rod (305) is connected to the second connecting plate (304).