Anti-inversion ultra-thin wall hanging rack
By designing an anti-flip ultra-thin wall mount, utilizing the snap-fit structure of the hanging ring and the limiting groove, and the use of metal materials, the problem of TV flipping and falling off is solved, achieving stable installation and an aesthetically pleasing effect.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SICHUAN CHANGHONG ELECTRIC CO LTD
- Filing Date
- 2025-08-28
- Publication Date
- 2026-06-19
Smart Images

Figure CN224381194U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of wall mounts, specifically to an anti-flip ultra-thin wall mount. Background Technology
[0002] Currently, LCD TV installation methods are mainly divided into two types: stand-mounted and wall-mounted. With consumers' increasing demands for home aesthetics and space utilization, ultra-thin wall-mounted installations are gradually becoming the market mainstream because they allow the TV to be closer to the wall, reducing visual clutter. However, to ensure the safety of wall-mounted installations and prevent accidental tipping or detachment during use, existing ultra-thin wall-mounted brackets usually require anti-tumble structures. Furthermore, traditional wall-mounted brackets are typically complex in structure and have a relatively large overall thickness. For example, Chinese patent document CN201262310Y discloses an integrated flat-panel TV wall-mounted bracket, which includes a slotted bracket with mounting holes for the flat-panel TV and mounting holes for fixing the bracket. Fixing is achieved by inserting the TV into the mounting holes. To allow for sufficient insertion depth and assembly space, a large gap exists between the TV and the wall after mounting, affecting the overall aesthetics. Utility Model Content
[0003] The present invention aims to provide an anti-flip ultra-thin wall mount, which is thin enough to prevent the TV from flipping after being fixed in place.
[0004] To achieve the above objectives, this utility model adopts the following technical solution: an anti-flip ultra-thin wall mount, comprising a wall mount plate for fixing to the wall and a connecting plate for connecting to a television. The connecting plate can be detachably installed on the wall mount plate. A hanging plate is provided on the upper part of the wall mount plate. A hanging ring is provided on the surface of the connecting plate near the wall mount plate. A hanging groove is formed between the hanging plate and the wall mount plate. The bottom side of the hanging ring is rotatably connected to the connecting plate. The upper side of the hanging ring can be hung in the hanging groove. A limiting groove is provided on one side of the connecting plate. A limiting baffle is fixedly provided on the surface of the wall mount plate facing the connecting plate at a position opposite to the limiting groove. After the connecting plate rotates left and right along the vertical surface of the wall mount plate, the limiting baffle can lock the connecting plate to restrict the connecting plate from flipping in the vertical plane direction.
[0005] The beneficial effects of this plan are:
[0006] The method of using this technical solution is as follows: After fixing the wall-mounted panel to the wall, the bottom side of the hanging ring is rotatably connected to the connecting plate. By rotating the hanging ring, it protrudes from the surface of the connecting plate, facilitating alignment between the hanging ring and the panel. After alignment, the hanging ring is placed in the limiting groove for smooth connection, improving the convenience of installation. After installation, rotating the connecting plate vertically engages it with the limiting baffle, preventing the connected plate from flipping in the vertical plane and avoiding instability caused by vibration, thus ensuring the stability of the television installation. After installation, the hanging ring automatically returns to a vertical position under gravity, making the engagement between the hanging ring and the mounting groove more secure, thereby further enhancing the stability of the television.
[0007] The installation of this technical solution involves connecting the wall mount via a rotating hanging ring. After the hanging ring is installed, it automatically rotates to a vertical position under the weight of the television. Therefore, the thickness of this wall mount is only the combined thickness of the wall mount plate, connecting plate, and hanging ring. Unlike traditional wall mounts, it does not require additional depth for connection. As a result, this technical solution has a thinner wall mount, occupies less space, and achieves an effect similar to attaching the television to the wall, making it more aesthetically pleasing.
[0008] Preferably, as an improvement, it also includes screws and rivets, wherein the side of the limiting baffle away from the connecting plate is fixedly connected to the wall-mounted plate by screws and rivets, and a gap is formed between the side of the limiting baffle near the connecting plate and the wall-mounted plate for insertion of the limiting groove side of the connecting plate.
[0009] The beneficial effects are as follows: by using screws and rivets to fix the limit baffle to the wall panel on the side away from the connecting plate, the installation of the limit baffle can be made more secure and reliable, preventing the limit baffle from loosening under long-term stress or vibration, and improving the safety and durability of the overall structure.
[0010] Preferably, as an improvement, the surface of the mounting plate near the wall panel is stamped with limiting protrusions.
[0011] The beneficial effect is that when the hanging ring is hung in the hanging groove, the limiting protrusion can prevent the hanging ring from coming off, thereby preventing the hanging ring from accidentally coming off the hanging plate due to external force or vibration during use.
[0012] Preferably, as an improvement, both the wall panel and the connecting plate are made of metal material with a thickness of 1.2-2.0mm, bent into shape, and the hanging ring is made of metal with a diameter of 3-6mm, bent into shape.
[0013] The beneficial effects are as follows: The wall-mounting panels and connecting plates of this solution are all made of metal material with a thickness of 1.2-2.0mm and bent into shape, which can provide sufficient load-bearing strength and deformation resistance while ensuring that the overall structure is relatively thin; at the same time, the hanging ring is made of metal material with a diameter of 3-6mm and bent into shape. This structure has good toughness and strength while being relatively thin, and can reliably bear the weight of the TV, ensuring safety during long-term use.
[0014] Preferably, as an improvement, the bottom of the connecting plate is symmetrically provided with two limiting rings, and the two ends of the hanging ring in the length direction pass through a limiting ring and are rotatably connected to it, and the outer periphery of the two ends of the hanging ring in the length direction is fitted with a plastic sleeve.
[0015] The beneficial effects are as follows: each end of the hanging ring passes through a limiting ring and is rotatably connected to it, so that the hanging ring has a reliable fulcrum positioning during installation and use, avoiding the hanging ring from shifting and ensuring the stability of the hanging ring; the present invention has plastic sleeves on the outer periphery of both ends of the hanging ring in the length direction, which can provide a certain friction force when the hanging ring rotates, thereby increasing rotational damping, preventing the hanging ring from shaking due to free swinging under no load, and improving the controllability of the installation process and the stability of the use process.
[0016] Preferably, as an improvement, the edge of the wall panel is stamped with a stepped bending structure, and the wall panel has multiple threaded holes for connecting with the wall surface, and the inner wall of the screw holes is provided with a circumferential reinforcing rib.
[0017] The beneficial effects are as follows: This solution forms a stepped bending structure by stamping the edge of the wall panel. This bending structure can effectively improve the overall structural strength and bending resistance of the wall panel; the surrounding reinforcing ribs can enhance the load-bearing capacity around the screw holes, making the screw connection more secure and avoiding metal fatigue or deformation at the screw holes due to long-term stress.
[0018] Preferably, as an improvement, the limiting baffle has an inclined surface on the side near the connecting plate, so that the length of the upper part of the limiting baffle is less than the length of the lower part.
[0019] The beneficial effects are as follows: This technical solution has an inclined surface on the side of the limiting baffle near the connecting plate, so that the length of the top surface of the limiting baffle is less than the length of the bottom surface. This inclined surface can play a guiding role when the connecting plate rotates to the limiting position, so that the connecting plate can smoothly enter the limiting position.
[0020] Preferably, as an improvement, the gap between the side of the limiting baffle near the connecting plate and the wall-mounted plate is the wall-mounted flip-up limiting gap, and after the limiting groove side of the connecting plate is inserted into the wall-mounted flip-up limiting gap, the clearance margin of the wall-mounted flip-up limiting gap is less than 0.5mm.
[0021] The beneficial effects are: ensuring that the connecting plate hardly loosens under the limiting state, while effectively avoiding a significant forward tilt angle after the TV is mounted, ensuring that the TV is in an ideal vertical state after mounting, and improving the stability of the installation and the safety of use.
[0022] Preferably, as an improvement, the connecting plate is provided with mounting holes for connecting a television, and U-shaped reinforcing grooves are stamped around the mounting holes.
[0023] The beneficial effects are: the U-shaped reinforcing groove can significantly enhance the structural strength around the mounting hole and prevent the connection hole from deforming or breaking under stress.
[0024] Preferably, as an improvement, the top of the mounting plate is provided with symmetrical inclined guide surfaces on the left and right sides.
[0025] The beneficial effect is that symmetrical inclined guide surfaces are set on both sides of the top of the hanging plate, so that the hanging ring can pass smoothly through the top surface of the hanging plate during installation, which facilitates the hanging installation. Attached Figure Description
[0026] Figure 1 This is an exploded view of an embodiment of the present utility model;
[0027] Figure 2 This is a structural schematic diagram of an embodiment of the present utility model.
[0028] The reference numerals in the accompanying drawings include: wall-mounted plate 1, connecting plate 2, hanging plate 3, hanging ring 4, hanging groove 5, limiting groove 6, limiting baffle 7, screw 8, riveting part 9, limiting protrusion 10, limiting ring 11, plastic sleeve 12, stepped bending structure 13, threaded hole 14, inclined surface 15, mounting hole 16, U-shaped reinforcing groove 17, and inclined guide surface 18. Detailed Implementation
[0029] The following detailed description is provided through specific implementation methods and examples:
[0030] The preferred embodiments of this utility model are basically as shown in the appendix. Figure 1-2 As shown, Figure 1 and Figure 2 The anti-flip ultra-thin wall mount shown includes a wall mount plate 1 for fixing to the wall and a connecting plate 2 for connecting to a television. The connecting plate 2 can be detachably installed on the wall mount plate 1. The wall mount plate 1 has a hanging plate 3 on its upper part. The connecting plate 2 has a hanging ring 4 on its surface near the wall mount plate 1. A hanging groove 5 is formed between the hanging plate 3 and the wall mount plate 1. The bottom side of the hanging ring 4 is rotatably connected to the connecting plate 2. The upper side of the hanging ring 4 can be hung in the hanging groove 5. A limiting groove 6 is stamped on one side of the connecting plate 2. A limiting baffle 7 is fixed on the surface of the wall mount plate 1 facing the connecting plate 2 at the position opposite to the limiting groove 6. After the connecting plate 2 rotates left and right along the vertical surface of the wall mount plate 1, the limiting baffle 7 can lock the connecting plate 2 to restrict the connecting plate 2 from flipping in the vertical plane direction.
[0031] The method of using this technical solution is as follows: After fixing the wall-mounted plate 1 to the wall, the bottom side of the hanging ring 4 is rotatably connected to the connecting plate 2. By rotating the hanging ring 4, it protrudes from the surface of the connecting plate 2, facilitating the alignment of the hanging ring 4 with the wall-mounted plate 3. After alignment, the hanging ring 4 is hung in the limiting groove 6 for smooth connection, improving the convenience of installation. After installation, the connecting plate 2 is rotated vertically to engage with the limiting baffle 7, preventing the connected plate 2 from flipping in the vertical plane after installation. This avoids unstable conditions caused by vibration, ensuring the stability of the television installation. After installation, the hanging ring 4 automatically returns to the vertical position under gravity, making the engagement between the hanging ring 4 and the mounting groove 5 more secure, thereby further enhancing the stability of the television.
[0032] The installation of this technical solution involves connecting the hanging ring 4 via a rotating mechanism. After the hanging ring 4 is installed, it automatically rotates to a vertical position under the weight of the television. Therefore, the thickness of this wall mount is only the combined thickness of the wall mount plate 1, the connecting plate 2, and the hanging ring 4. Unlike traditional wall mounts, it does not require additional depth for connection. As a result, this technical solution has a thinner wall mount, occupies less space, and achieves an effect similar to attaching the television to the wall, making it more aesthetically pleasing.
[0033] To ensure a simple, reliable, and easy-to-assemble structure, the preferred embodiment of this invention further includes screws 8 and rivets 9. The side of the limiting baffle 7 away from the connecting plate 2 is fixedly connected to the wall-mounted plate 1 by screws 8 and rivets 9. A gap is formed between the side of the limiting baffle 7 near the connecting plate 2 and the wall-mounted plate 1 for insertion into the limiting groove 6 of the connecting plate 2. By using screws 8 and rivets 9 to fix the limiting baffle 7 to the wall-mounted plate 1 on the side away from the connecting plate 2, the installation of the limiting baffle 7 can be made more secure and reliable, preventing the limiting baffle 7 from loosening under long-term stress or vibration, and improving the safety and durability of the overall structure.
[0034] To ensure a simple, reliable, and easy-to-assemble structure, the preferred embodiment of this invention uses a metal material with a thickness of 1.2-2.0mm, bent into shape, and a metal ring with a diameter of 3-6mm, bent into shape. The use of a 1.2-2.0mm thick metal material for both the wall-mounted panel 1 and connecting plate 2 provides sufficient load-bearing strength and resistance to deformation while maintaining a relatively thin overall structure. Simultaneously, the 3-6mm diameter metal ring provides good toughness and strength despite its small thickness, reliably supporting the weight of the television and ensuring safety during long-term use. To ensure a simple, reliable, and easy-to-assemble structure, the preferred embodiment of this invention features a stepped bending structure 13 stamped along the edge of the wall-mounted panel 1. The wall-mounted panel 1 has multiple threaded holes 14 for connection to the wall surface, and the inner walls of the screw holes are provided with reinforcing ribs. This design forms a stepped bending structure 13 by stamping along the edge of the wall-mounted panel 1. This bending structure effectively improves the overall structural strength and bending resistance of the wall-mounted panel 1. The reinforcing ribs enhance the load-bearing capacity around the screw holes, making the screw connections more secure and preventing metal fatigue or deformation at the screw holes due to prolonged stress.
[0035] To ensure a simple, reliable, and easy-to-assemble structure, the preferred embodiment of this utility model is that a limiting protrusion 10 is stamped on the surface of the hanging plate 3 near the wall-mounted plate 1. When the hanging ring 4 is hung in the hanging groove 5, the limiting protrusion can prevent the hanging ring 4 from coming off, thereby preventing the hanging ring 4 from accidentally coming off the hanging plate 3 due to external force or vibration during use.
[0036] To ensure a simple, reliable, and easy-to-assemble structure, the preferred embodiment of this invention features a slope 15 on the side of the limiting baffle 7 near the connecting plate 2. This slope ensures that the upper part of the limiting baffle is shorter than the lower part. The slope 15 on the side of the limiting baffle 7 near the connecting plate 2 further reduces the length of the top surface of the limiting baffle 7 compared to the bottom surface. This slope 15 acts as a guide when the connecting plate 2 rotates to the limiting position, allowing it to smoothly enter the limiting position. For smooth hanging, the preferred embodiment of this invention uses a wall-mounted flip-up limiting gap between the side of the limiting baffle 7 near the connecting plate 2 and the wall-mounted plate 1. After the limiting groove 6 of the connecting plate 2 is inserted into the wall-mounted flip-up limiting gap, the clearance is less than 0.5mm. This ensures that the connecting plate 2 remains almost completely still in the limiting position, effectively preventing a significant forward tilt after the television is mounted, ensuring the television is in an ideal vertical position, and improving installation stability and safety.
[0037] To ensure a simple, reliable, and easy-to-assemble structure, the preferred embodiment of this invention features two symmetrically arranged limiting rings 11 at the bottom of the connecting plate 2. Each end of the hanging ring 4 along its length passes through a limiting ring 11 and is rotatably connected to it. Furthermore, plastic sleeves 12 are fitted around the outer periphery of each end of the hanging ring 4 along its length, providing reliable fulcrum positioning during installation and use, preventing displacement and ensuring stability. The plastic sleeves 12 on the outer periphery of each end of the hanging ring 4 along its length provide friction during rotation, increasing rotational damping and preventing wobbling due to free swinging under no-load conditions, thus improving controllability during installation and stability during use.
[0038] To ensure a simple, reliable, and easy-to-assemble structure, the preferred embodiment of this invention features symmetrically arranged inclined guide surfaces 18 on both sides of the top of the hanging plate 3. These inclined guide surfaces 18 allow the hanging ring 4 to pass smoothly through the top surface of the hanging plate 3 during installation, facilitating hanging installation. To further ensure a simple, reliable, and easy-to-assemble structure, the preferred embodiment of this invention features mounting holes 16 on the connecting plate 2 for connecting a television. A U-shaped reinforcing groove 17 is stamped around the mounting hole 16. This U-shaped reinforcing groove 17 significantly enhances the structural strength around the mounting hole 16, preventing deformation or damage to the connecting hole under stress.
[0039] The above descriptions are merely embodiments of this utility model. Commonly known technical solutions and / or characteristics are not described in detail here. It should be noted that those skilled in the art can make various modifications and improvements without departing from the technical solution of this utility model. These modifications and improvements should also be considered within the scope of protection of this utility model, and will not affect the effectiveness of the implementation of this utility model or the practicality of the patent. The scope of protection claimed in this application should be determined by the content of its claims, and the specific embodiments described in the specification can be used to interpret the content of the claims.
Claims
1. An anti-flip ultra-thin wall mount, comprising a wall-mounting plate (1) for fixing to a wall and a connecting plate (2) for connecting to a television, the connecting plate (2) being detachably mounted on the wall-mounting plate (1), characterized in that: The wall-mounted panel (1) is provided with a hanging plate (3) on the upper part. The connecting plate (2) is provided with a hanging ring (4) on the surface of the wall-mounted panel (1). A hanging groove (5) is formed between the hanging plate (3) and the wall-mounted panel (1). The bottom side of the hanging ring (4) is rotatably connected to the connecting plate (2). The upper side of the hanging ring (4) can be hung in the hanging groove (5). A limiting groove (6) is provided on one side of the connecting plate (2). A limiting baffle (7) is fixedly provided on the surface of the wall-mounted panel (1) facing the connecting plate (2) at the position opposite to the limiting groove (6). After the connecting plate (2) rotates left and right along the surface of the wall-mounted panel (1), the limiting baffle (7) can lock the connecting plate (2) to restrict the connecting plate (2) from flipping in the vertical plane direction.
2. The anti-tilting ultra-thin wall mount according to claim 1, characterized in that: It also includes screws (8) and rivets (9). The side of the limiting baffle (7) away from the connecting plate (2) is fixedly connected to the wall-mounted plate (1) by screws (8) and rivets (9). A gap is formed between the side of the limiting baffle (7) near the connecting plate (2) and the wall-mounted plate (1) for the side of the limiting groove (6) of the connecting plate (2) to be inserted.
3. The anti-tilting ultra-thin wall mount according to claim 1, characterized in that: The surface of the mounting plate (3) near the wall-mounted plate (1) is stamped to form a limiting protrusion (10).
4. The anti-tilting ultra-thin wall mount according to claim 1, characterized in that: The wall panel (1) and the connecting plate (2) are both made of metal material with a thickness of 1.2-2.0mm and bent into shape. The hanging ring (4) is made of metal strip with a diameter of 3-6mm and bent into shape.
5. The anti-tilting ultra-thin wall mount according to claim 1, characterized in that: The bottom of the connecting plate (2) is symmetrically provided with two limiting rings (11). The two ends of the hanging ring (4) in the length direction pass through a limiting ring (11) and are rotatably connected to it. The outer periphery of the two ends of the hanging ring (4) in the length direction is covered with plastic sleeves (12).
6. The anti-tilting ultra-thin wall mount according to claim 1, characterized in that: The edge of the wall panel (1) is stamped with a stepped bending structure (13), and the wall panel (1) is provided with multiple threaded holes (14) for connecting with the wall surface. The inner wall of the screw holes is provided with a circumferential reinforcing rib.
7. The anti-tilting ultra-thin wall mount according to claim 1, characterized in that: The limiting baffle (7) has an inclined surface (15) on the side near the connecting plate (2), so that the length of the upper part of the limiting baffle is less than the length of the lower part.
8. The anti-tilting ultra-thin wall mount according to claim 1, characterized in that: The gap between the side of the limiting baffle (7) near the connecting plate (2) and the wall-mounted plate (1) is the wall-mounted flip-up limiting gap. After the limiting groove (6) of the connecting plate (2) is inserted into the wall-mounted flip-up limiting gap, the clearance of the wall-mounted flip-up limiting gap is less than 0.5mm.
9. The anti-tilting ultra-thin wall mount according to claim 1, characterized in that: The connecting plate (2) is provided with mounting holes (16) for connecting a television, and U-shaped reinforcing grooves (17) are stamped around the mounting holes (16).
10. The anti-tilting ultra-thin wall mount according to claim 1, characterized in that: The top of the hanging plate (3) is symmetrically provided with inclined guide surfaces (18) on the left and right sides.