High-efficiency dry-hanging wall system
By using sliding fasteners and sliding components in the wall dry-hanging system, combined with the adjustment components of metal sheets or mesh and the wall, the problems of uneven construction and easy cracking of bricks are solved, achieving efficient leveling and reinforced connection.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANDONG XINXING ARCHITECTURAL PLANNING & DESIGN INST
- Filing Date
- 2025-06-27
- Publication Date
- 2026-06-30
AI Technical Summary
In the current dry-hanging wall construction process, uneven base wall surface leads to complicated construction, a large amount of leveling work, and problems such as wall tiles being easily cracked by external forces and surface material peeling.
By employing sliding connection fasteners and sliding components, and adjusting the metal sheet or mesh against the wall, wall tiles can be installed conveniently and efficiently for leveling. Structural adhesive is used to fix the wall tiles to improve connection strength.
It improves the efficiency of leveling construction, enhances the connection strength of wall tiles, and avoids the problems of wall tiles cracking and surface material peeling under external force.
Smart Images

Figure CN224431871U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to a high-efficiency dry-hanging system for walls, belonging to the field of wall decoration technology. Background Technology
[0002] Dry-hanging stone is a relatively new construction technique in wall decoration, typically using ceramic tiles or marble wall tiles. This method involves directly suspending the stone cladding from the wall or onto a steel frame using metal hangers, eliminating the need for grouting or adhesive bonding. The principle is to establish primary load-bearing points on the main structure and then fix the stone to the building using back bolts, forming a stone decorative curtain wall.
[0003] In existing dry-hanging wall installations, the construction process is often cumbersome and time-consuming due to uneven base walls, resulting in excessive leveling work and difficulty in adjusting flatness. Furthermore, the current method of suspending wall tiles using back bolts leaves a large unsupported space behind the tiles, making them prone to cracking and surface chipping under external forces.
[0004] In summary, the existing wall tiles have obvious inconveniences and defects in the dry-hanging construction process, so it is necessary to improve them. Utility Model Content
[0005] This utility model addresses the shortcomings of the prior art by providing a high-efficiency dry-hanging system for walls. It can use metal sheets or mesh to achieve convenient and efficient installation of wall tiles, facilitate leveling, significantly improve leveling construction efficiency, and enhance the connection strength of wall tiles, thus solving the problems of wall tiles being prone to cracking and surface material spalling under external forces.
[0006] To solve the above technical problems, the present invention adopts the following technical solution:
[0007] The wall-mounted high-efficiency dry-hanging system includes a fixed component and a sliding component with sliding connection. The end of the fixed component away from the sliding component is fixed to the wall. A metal plate or mesh is installed on the end of the sliding component away from the fixed component. Wall tiles are dry-hanging on the outside of the metal plate or mesh. The fixed component consists of an upper fixed plate and a lower sleeve. The top of the sleeve is provided with a threaded hole, and the bottom of the sleeve is provided with an adhesive application port.
[0008] Furthermore, the fixed plate and the sleeve are set perpendicularly, and the two are an integral structure formed by cold bending of a single piece of plate.
[0009] Furthermore, fixing holes are provided on the main body of the fixed plate.
[0010] Furthermore, a fastening screw is installed inside the threaded hole, which locks the position of the sliding component inside the sleeve.
[0011] Furthermore, the glue application port is arranged to extend through the sleeve along its length.
[0012] Furthermore, the sliding component consists of a sliding cylinder and a flat hanging plate at its end. The sliding cylinder and the flat hanging plate are an integral structure, formed by cold bending from a single piece of plate.
[0013] Furthermore, the slide tube adopts a ring-shaped closed structure and slides through the sleeve of the fixing component; the flat hanging plate is set in the vertical direction.
[0014] Furthermore, the back of the metal sheet is provided with a hanging ear for inserting a flat hanging plate, and the hanging ear is formed by stamping.
[0015] Furthermore, the sliding component consists of a sliding cylinder and a U-shaped hanging plate at its end. The sliding cylinder and the U-shaped hanging plate are an integral structure, formed by cold bending from a single piece of plate.
[0016] Furthermore, the slide tube adopts a ring-shaped closed structure and slides through the sleeve of the fixing component; the opening of the U-shaped hanging plate is set to face upwards in the vertical direction.
[0017] Compared with the prior art, the present invention, by adopting the above technical solution, has the following advantages:
[0018] In this utility model, the metal sheet or mesh is installed on the wall through an adjustment assembly formed by a fixing member and a sliding member. The gap width between the metal sheet or mesh and the wall can be adjusted by the sliding member. The sliding member is locked in position in two ways, which facilitates the leveling of the metal sheet or mesh.
[0019] In this utility model, the wall tiles are hung on the outer wall surface of a metal sheet or mesh, and the distance between the wall tiles and the wall is small, which helps to increase the interior space.
[0020] When wall tiles are installed, an adhesive can be applied to their backs. After the adhesive solidifies, it securely connects the wall tiles to the metal sheet or mesh, effectively increasing the load-bearing area of the wall tiles and preventing cracking or surface breakage when subjected to external forces.
[0021] This invention can be widely applied to the installation of slabs and decorative panels.
[0022] The present invention will now be described in detail with reference to the accompanying drawings and embodiments. Attached Figure Description
[0023] Figure 1 This is a schematic diagram of the structure of Example 1;
[0024] Figure 2 This is a schematic diagram of the connection between the fixing member and the sliding member in Embodiment 1;
[0025] Figure 3 This is a side view of the fastener in Embodiment 1;
[0026] Figure 4 This is a side view of the slider in Embodiment 1;
[0027] Figure 5 yes Figure 1 Enlarged view at point M;
[0028] Figure 6 This is a structural schematic diagram of Example 2;
[0029] Figure 7 This is a schematic diagram of the connection between the fixing member and the sliding member in Embodiment 2;
[0030] Figure 8 This is a side view of the slider in Embodiment 2.
[0031] In the diagram, 1-fixing component, 11-fixing plate, 12-fixing hole, 13-sleeve, 14-threaded hole, 15-glue applicator; 2-sliding component, 21-sliding cylinder, 22-flat hanging plate, 23-U-shaped hanging plate; 3-fastening screw; 4-wall; 5-metal sheet, 51-hanging ear; 6-mesh; 7-wall tile. Detailed Implementation
[0032] To provide a clearer understanding of the technical features, objectives, and effects of this utility model, the specific embodiments of this utility model are now described with reference to the accompanying drawings.
[0033] Example 1
[0034] like Figures 1-5 As shown in the figure, this utility model provides a high-efficiency dry-hanging system for walls, including a fixing member 1 and a sliding member 2 that are slidably connected. The end of the fixing member 1 away from the sliding member 3 is fixed to the wall 4. A metal plate 5 is installed on the end of the sliding member 3 away from the fixing member 1. Wall tiles 7 are dry-hanging on the outside of the metal plate 5.
[0035] The fastener 1 consists of an upper fixing plate 11 and a lower sleeve 13. The fixing plate 11 and the sleeve 13 are arranged perpendicularly and are an integral structure formed by cold bending of a single piece of plate.
[0036] The main body of the fixed plate 11 is provided with a fixing hole 12, which is used for fasteners such as nails to pass through, and the fasteners fix the fixed plate 11 to the wall 4.
[0037] The top of the sleeve 13 is provided with a threaded hole 14, and a fastening screw 3 is installed in the threaded hole 14. The fastening screw 3 can lock the position of the sliding part 2 inside the sleeve 13.
[0038] The bottom of the sleeve 13 is provided with an adhesive applicator 15, which extends through the sleeve 13 along its length. Structural adhesive can be applied through the adhesive applicator 15 to lock the position of the sliding member 2 inside the sleeve 13.
[0039] The sliding member 2 consists of a sliding cylinder 21 and a flat hanging plate 22 at its end. The sliding cylinder 21 and the flat hanging plate 22 are an integral structure formed by cold bending of a single piece of plate.
[0040] The sliding cylinder 21 adopts a closed annular structure and slides through the sleeve 13 of the fixing member 1. By sliding the sliding cylinder 21 along the sleeve 13, the gap between the metal plate 5 and the wall 4 can be adjusted, which facilitates the leveling of the metal plate 5 and further facilitates the dry-hanging leveling of the wall tiles 7.
[0041] The flat hanging plate 22 is set in the vertical direction and is used to hang the metal plate 5. The back of the metal plate 5 is provided with a hanging ear 51 for the flat hanging plate 22 to be inserted. The hanging ear 51 is formed by stamping.
[0042] Working principle:
[0043] First, insert the flat hanging plate 22 of the sliding member 2 into the hanging ear 51 of the metal plate 5, and then slide the sleeve 13 of the fixing member 1 onto the sliding cylinder 21 of the sliding member 2. The metal plate 5, the sliding member 2 and the fixing member 1 are assembled into a whole structure. The whole structure is placed close to the wall 4, and the fixing member 1 is fixed to the surface of the wall 4 through the fixing hole 12 of the fixing member 1.
[0044] The metal plate 5 and the sliding part 2 can slide back and forth along the sleeve 13 of the fixing part 1 to adjust the gap between the metal plate 5 and the wall 4, making it easier to level the metal plate 5. After the metal plate 5 is leveled, the fastening screw 3 is tightened to lock the position of the sliding part 2, and structural adhesive is applied at the glue application port 15 to further lock the position of the sliding part 2. Finally, the wall tiles 7 are dry-hung and installed on the outside of the metal plate 5.
[0045] Example 2
[0046] like Figures 6-8 As shown in the figure, this utility model provides a high-efficiency dry-hanging system for walls, including a fixing member 1 and a sliding member 2 that are slidably connected. The end of the fixing member 1 away from the sliding member 3 is fixed to the wall 4. A mesh 6 is installed on the end of the sliding member 3 away from the fixing member 1. Wall tiles 7 are dry-hanging on the outside of the mesh 6.
[0047] The sliding component 2 consists of a sliding cylinder 21 and a U-shaped hanging plate 23 at its end. The sliding cylinder 21 and the U-shaped hanging plate 23 are an integral structure formed by cold bending of a single piece of plate.
[0048] The slide tube 21 adopts a ring-shaped closed structure and slides through the sleeve 13 of the fixing member 1.
[0049] The opening of the U-shaped hanging plate 23 is set vertically upwards and is used to hang the mesh 6.
[0050] Working principle:
[0051] First, connect the U-shaped hanging plate 23 of the sliding member 2 to the mesh 6. Then, slide the sleeve 13 of the fixing member 1 onto the sliding cylinder 21 of the sliding member 2. The mesh 6, the sliding member 2, and the fixing member 1 are assembled into one piece. The integrated structure is then placed close to the wall 4, and the fixing member 1 is fixed to the surface of the wall 4 through the fixing hole 12 of the fixing member 1.
[0052] The mesh 6 and the sliding member 2 can slide back and forth along the sleeve 13 of the fixing member 1, thereby adjusting the gap between the mesh 6 and the wall 4, making it easier to level the mesh 6. After the mesh 6 is leveled, tighten the fastening screw 3 to lock the position of the sliding member 2, and apply structural adhesive at the adhesive application port 15 to further lock the position of the sliding member 2. Finally, dry-hang the wall tiles 7 to the outside of the mesh 6.
[0053] The above description provides examples of the preferred embodiments of this utility model. Any aspects not detailed herein are common knowledge to those skilled in the art. The scope of protection of this utility model is determined by the claims. Any equivalent modifications based on the technical teachings of this utility model are also within the scope of protection of this utility model.
Claims
1. A high-efficiency dry hanging system for wall surface, characterized in that: It includes a sliding connection of a fixing member (1) and a sliding member (2). The end of the fixing member (1) away from the sliding member (2) is fixed to the wall (4). A metal plate (5) or a mesh (6) is installed on the end of the sliding member (2) away from the fixing member (1). Wall tiles (7) are dry-hung on the outside of the metal plate (5) or the mesh (6). The fixing member (1) consists of an upper fixing plate (11) and a lower sleeve (13). The top of the sleeve (13) is provided with a threaded hole (14), and the bottom of the sleeve (13) is provided with an adhesive applicator (15).
2. The high-efficiency dry hanging system of claim 1, wherein: The fixed plate (11) and the sleeve (13) are set vertically and are an integral structure formed by cold bending of a whole plate.
3. The high-efficiency dry hanging system for wall surface according to claim 1, characterized in that: Fixing holes (12) are provided on the main body of the fixed plate (11).
4. The high-efficiency drywall hanging system of claim 1, wherein: A fastening screw (3) is installed in the threaded hole (14), and the fastening screw (3) locks the position of the sliding part (2) inside the sleeve (13).
5. The high-efficiency drywall hanging system of claim 1, wherein: The glue applicator (15) is arranged through the sleeve (13) along its length.
6. The wall high efficient dry hanging system according to claim 1, characterized in that: The sliding component (2) consists of a sliding cylinder (21) and a flat hanging plate (22) at its end. The sliding cylinder (21) and the flat hanging plate (22) are an integral structure formed by cold bending of a single piece of plate.
7. The high-efficiency drywall hanging system of claim 6, wherein: The sliding cylinder (21) adopts a ring-shaped closed structure and slides through the sleeve (13) of the fixing member (1); the flat hanging plate (22) is set in the vertical direction.
8. The high-efficiency drywall hanging system of claim 7, wherein: The metal sheet (5) has a hanging ear (51) on the back for inserting the flat hanging plate (22), and the hanging ear (51) is formed by stamping.
9. The high-efficiency drywall hanging system of claim 1, wherein: The sliding component (2) consists of a sliding cylinder (21) and a U-shaped hanging plate (23) at its end. The sliding cylinder (21) and the U-shaped hanging plate (23) are an integral structure formed by cold bending of a whole plate.
10. The high-efficiency drywall hanging system of claim 9, wherein: The slide tube (21) adopts a ring-shaped closed structure and slides through the sleeve (13) of the fixing member (1); the opening of the U-shaped hanging plate (23) is set upward in the vertical direction.