Hanging rack

By designing hinged wall panel components and hanging brackets, the problems of high packaging costs and complicated installation of large-size display device brackets have been solved, achieving the effects of cost reduction and simplified installation.

CN224454217UActive Publication Date: 2026-07-03XINGXIANDA (HONG KONG) CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
XINGXIANDA (HONG KONG) CO LTD
Filing Date
2025-09-11
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Existing display device mounting brackets have large wall panel sizes, resulting in high packaging costs and inconvenient transportation, while the installation process is also cumbersome.

Method used

Design a hanger including hinged first and second wall panel components and a hanger. The wall panel components are assembled into an assembly before leaving the factory, providing a stable mounting base when unfolded, reducing packaging size when folded, and being directly unfolded and fixed to the wall during installation.

Benefits of technology

It reduced packaging costs, simplified the installation process, improved transportation efficiency, and ensured the stable suspension of large-size display devices.

✦ Generated by Eureka AI based on patent content.

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Abstract

This application provides a wall mount bracket, including a wall panel assembly and two hangers. The wall panel assembly includes a first wall panel, a second wall panel, and a first hinge. The first hinge connects the first and second wall panels. When the first and second wall panels are in an unfolded state, they are coplanar; when folded, they are stacked. The two hangers are respectively connected to the first and second wall panels, and both hangers are used to fix a display device. The first and second wall panels of this application are hinged together. During packaging, the first and second wall panels can be folded, which greatly saves packaging materials and facilitates logistics and transportation. Furthermore, because the first and second wall panels are hinged together, the installation method after unfolding is the same as that of a single wall panel, making installation convenient.
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Description

Technical Field

[0001] This utility model relates to the field of display device installation, and in particular to a mounting bracket. Background Technology

[0002] Most existing display device mounting brackets are single-panel structures with relatively large panel dimensions. Furthermore, as display device sizes continue to increase, the corresponding panel dimensions also grow larger. Excessive panel size increases packaging costs and inconveniences during transportation. To address this, existing technologies use two independent panel components, separated during packaging and transportation to reduce panel size during transport. However, this requires installers to first assemble the two independent components into a single large panel using screws, then install the large panel onto the wall, and finally mount the display device onto the large panel – a cumbersome installation process. Utility Model Content

[0003] Therefore, this application proposes a bracket that not only reduces the packaging size of the wall panel but also facilitates installation, thereby solving the aforementioned technical problems.

[0004] This application provides a wall panel assembly and two hangers, wherein the wall panel assembly includes:

[0005] First wall panel component;

[0006] Second wall panel component;

[0007] The first hinge is connected between the first wall panel and the second wall panel. When the first wall panel and the second wall panel are in the unfolded state, they are arranged on the same plane. When the first wall panel and the second wall panel are in the folded state, they are stacked.

[0008] The two brackets are connected to the first wall panel and the second wall panel respectively, and the two brackets are used together to fix the display device.

[0009] Therefore, in this application, the first wall panel and the second wall panel are hinged together and can be unfolded and folded. When the first wall panel and the second wall panel are unfolded and on the same plane through the first hinge, they together provide a wide and stable mounting base for fixing the display device and suspending the display device, especially for large-sized display devices. When the first wall panel and the second wall panel are folded through the first hinge, they are stacked, which can greatly reduce the packaging size, thereby reducing packaging material costs and facilitating transportation. Moreover, the wall panel assembly is an assembly of the first wall panel, the second wall panel, and the first hinge. The wall panel assembly is pre-assembled before leaving the factory. When installing at the user's location, the wall panel assembly is taken out of the packaging and the first and second wall panels are unfolded. The wall panel assembly can then be installed on the wall in a manner similar to that of a single wall panel, without the need to assemble the first wall panel, the second wall panel, and the first hinge on-site, thus simplifying the installation process.

[0010] In some possible embodiments of this application, a first wall panel is provided with a first connector, a second wall panel is provided with a second connector, and a first hinge is connected between the first connector and the second connector.

[0011] Therefore, in this application, a first connector is provided on the first wall panel and a second connector is provided on the second wall panel, so that the first hinge is connected between the first connector and the second connector, which facilitates installation and ensures a stable and reliable connection.

[0012] In some possible embodiments of this application, the first hinge member further includes a spacer, which is disposed between two adjacent first connectors and between two adjacent second connectors.

[0013] Therefore, the spacer is disposed between two adjacent first connecting members and between two adjacent second connecting members, serving to support the two adjacent first connecting members and the spacer between the two adjacent second connecting members. It can provide support when the first hinge applies tension to the two adjacent first connecting members and when the first hinge applies tension to the two adjacent second connecting members, ensuring the structural stability of the first connecting members and the second connecting members and improving the connection stability between the first hinge, the first connecting members and the second connecting members.

[0014] In some possible embodiments of this application, the first connector is formed by folding the body of the first wall panel and the second connector is formed by folding the body of the second wall panel.

[0015] Therefore, in this application, the bodies of the first connector and the first wall panel are integrally formed, and the first connector can be formed by stamping or the like, thereby reducing production costs and improving structural strength. The bodies of the second connector and the second wall panel are integrally formed, and the second connector can be formed by stamping or the like, thereby reducing production costs and improving structural strength.

[0016] In some possible embodiments of this application, a first abutment is provided on the side of the first wall panel facing away from the hanger, and a second abutment is provided on the side of the second wall panel facing away from the hanger. When the first wall panel and the second wall panel are in the unfolded state, the first abutment and the second abutment are adapted to be connected to limit the maximum rotation angle between the first wall panel and the second wall panel to 180 degrees.

[0017] Therefore, in this application, the first abutment and the second abutment provide a guiding and positioning function for the assembly connection between the first wall panel, the second wall panel, and the first hinge. Moreover, when the first wall panel and the second wall panel are in the unfolded state, the first abutment and the second abutment can abut against each other, preventing the connection end of the first wall panel and the second wall panel from deviating away from the wall under the action of gravity. This ensures that the first wall panel and the second wall panel can maintain an unfolded state of exactly 180 degrees even under the action of gravity, thereby improving the load-bearing capacity of the wall panel assembly.

[0018] In some possible embodiments of this application, the first abutting member is a groove or a protrusion, and the second abutting member is correspondingly provided as a protrusion or a groove.

[0019] Therefore, in this application, one of the first abutting member and the second abutting member is a groove and the other is a protrusion. The mutual abutment of the groove and the protrusion results in stronger structural stability, a simple structure, convenient processing, and low processing cost.

[0020] In some possible embodiments of this application, the hanger includes a hanging strip, an extension strip, and a second hinge, with the hanging strip and the extension strip hinged together by the second hinge.

[0021] Therefore, in this application, the hanging strip and the extension strip are hinged together, and can be folded together during packaging, which greatly reduces the packaging size, thereby reducing packaging material costs and facilitating transportation. In use, the hanging strip and the extension strip can be unfolded, i.e., the included angle between them is 180 degrees, suitable for the installation of large-size display devices, and eliminates the need for on-site assembly of the hanging strip and extension strip at the user's location, simplifying the installation process.

[0022] In some possible embodiments of this application, a third abutment is provided on the side of the hanging strip facing away from the wall panel assembly, and a fourth abutment is provided on the side of the extension strip facing away from the wall panel assembly. When the hanging strip and the extension strip are in an unfolded state, the third abutment and the fourth abutment are adapted to connect to limit the maximum rotation angle between the hanging strip and the extension strip to 180 degrees.

[0023] Therefore, in this application, the third and fourth abutting members provide guidance and positioning for the assembly connection between the hanging strip and the extension strip. Moreover, when the hanging strip and the extension strip are in the unfolded state, the third and fourth abutting members can abut against each other to prevent the extension strip from tilting away from the wall under the action of gravity. This ensures that the hanging strip and the extension strip can maintain an unfolded state of exactly 180 degrees even under the action of gravity, thereby improving the load-bearing capacity of the hanging strip.

[0024] In some possible embodiments of this application, the pendant includes a hanging strip;

[0025] The first wall panel and the second wall panel are provided with a first snap-fit ​​part at their top ends and a second snap-fit ​​part at their bottom ends.

[0026] The pendant also includes a hook, which has a first side and a second side arranged opposite to each other. The first side of the hook is connected to the hanging strip. The top of the second side of the hook is provided with a hook portion. The bottom of the second side of the hook is connected with a locking member. The hook portion is engaged with the first snap-fit ​​portion. When the locking member is engaged with the second snap-fit ​​portion, the pendant is in a locked state. When the locking member is disengaged from the second snap-fit ​​portion, the pendant is in an unlocked state.

[0027] Therefore, in this application, the hook part and the first snap-fit ​​part cooperate to achieve initial suspension, and the locking part and the second snap-fit ​​part engage to achieve locking, which can achieve quick locking and facilitate installation.

[0028] In some possible embodiments of this application, the locking element includes a safety plate, an elastic element, and a pull cord. The safety plate is slidably connected to the bottom end of the second side of the hook. One end of the elastic element is connected to the bottom end of the second side of the hook, and the other end of the elastic element is connected to the safety plate. The pull cord is connected to the safety plate. By applying a downward pulling force to the pull cord, the extension length of the safety plate relative to the bottom end of the second side of the hook is changed, thereby changing the engagement state between the safety plate and the second locking part.

[0029] Therefore, in this application, by applying a downward pulling force to the pull rope, the safety plate can be driven to move downward relative to the hook, and the elastic element is stretched, so that it can be separated from the second locking part. After the external force of the downward pull applied to the pull rope disappears, the elastic restoring force of the elastic element drives the safety plate to move upward relative to the hook, so that it can be locked with the second locking part, thereby achieving quick locking and quick unlocking.

[0030] In some possible embodiments of this application, the hook is provided with a first adjustment structure, the hanging strip is provided with a second adjustment structure, and the hanging member also includes an adjustment member connected to the first adjustment structure and the second adjustment structure. By operating the adjustment member, the rotation angle of the hanging strip relative to the hook in the length direction around the hanging frame can be adjusted.

[0031] Therefore, in this application, the hook and the hanging strip have a degree of freedom for pitch adjustment, which can realize the adjustment of the pitch and rotation angle of the display device. Attached Figure Description

[0032] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0033] Figure 1 This is a three-dimensional structural diagram of the hanging bracket in the embodiments of this application;

[0034] Figure 2 for Figure 1 A three-dimensional structural diagram of the hanging bracket in another direction;

[0035] Figure 3 for Figure 2 Exploded view;

[0036] Figure 4 for Figure 3 A magnified view of section IV;

[0037] Figure 5 This is a schematic diagram of the folding process of the wall panel assembly in the embodiments of this application;

[0038] Figure 6 This is an exploded view of the pendant in the embodiments of this application;

[0039] Figure 7 This is a schematic diagram of the folding process of the hanging rack in an embodiment of this application;

[0040] Figure 8 This is a schematic diagram of the pendant locking in an embodiment of this application;

[0041] Figure 9 An exploded view of the locking element and a structural diagram of the locking element in the unlocked state are shown.

[0042] Figure 10 A schematic diagram illustrating the locking mechanism in a locked state is provided. Detailed Implementation

[0043] The embodiments of this application are described in detail below. Examples of these embodiments are shown in the accompanying drawings, wherein the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are exemplary and intended to explain this application, and should not be construed as limiting this application.

[0044] Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of this application, "multiple" means two or more, unless otherwise explicitly specified.

[0045] In this application, unless otherwise expressly specified and limited, the terms "connection," "fixed," etc., should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral part; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; they can refer to the internal communication of two components or the interaction between two components. Those skilled in the art can understand the specific meaning of the above terms in this application according to the specific circumstances.

[0046] Please refer to Figure 1 , Figure 1 This is a three-dimensional structural diagram of the hanger 100 in an embodiment of this application. For ease of description, the following definitions are provided. Figure 1 The front-to-back direction of the hanging bracket 100 shown is the Y-axis direction, i.e., the thickness direction and front-to-back direction; the left-to-right direction is the X-axis direction, i.e., the length direction and horizontal direction; and the vertical and height directions are the Z-axis directions. The directional terms such as "top," "bottom," "left," and "right" mentioned in the description of the hanging bracket 100 in this application are based on the accompanying drawings. Figure 1 The description of the orientation shown, with the positive direction of the Z-axis as "top", the negative direction of the Z-axis as "bottom", the negative direction of the X-axis as "left", the positive direction of the X-axis as "right", the negative direction of the Y-axis as "back", and the positive direction of the Y-axis as "front", does not constitute a limitation on the actual application scenario of the hanger 100.

[0047] like Figure 1 As shown, the wall panel 100 includes a wall panel assembly 10 and two hangers 20, wherein the wall panel assembly 10 includes:

[0048] First wall panel component 11;

[0049] Second wall panel component 12;

[0050] The first hinge 13 is connected between the first wall panel 11 and the second wall panel 12. When the first wall panel 11 and the second wall panel 12 are in the unfolded state, they are arranged on the same plane. When the first wall panel 11 and the second wall panel 12 are in the folded state, they are stacked.

[0051] Two brackets 20 are respectively connected to the first wall panel 11 and the second wall panel 12, and the two brackets 20 are used together to fix the display device (not shown in the figure).

[0052] Therefore, in this application, the first wall panel 11 and the second wall panel 12 are hinged together by the first hinge 13, and can be unfolded and folded. When the first wall panel 11 and the second wall panel 12 are unfolded through the first hinge 13 and are on the same plane, the first wall panel 11 and the second wall panel 12 together provide a wide and stable mounting base for fixing the display device, realizing the suspension of the display device, especially for large-sized display devices. When the first wall panel 11 and the second wall panel 12 are folded through the first hinge 13 and stacked, the packaging size can be greatly reduced, thereby reducing packaging material costs and facilitating transportation. Furthermore, the wall panel assembly 10 is an assembly of the first wall panel 11, the second wall panel 12, and the first hinge 13. The wall panel assembly 10 is pre-assembled before leaving the factory. When installing it on-site at the user's location, the wall panel assembly 10 is taken out of the packaging and the first wall panel 11 and the second wall panel 12 are opened to unfold. The wall panel assembly 10 can then be installed on the wall in a manner similar to that of a single wall panel, without the need to assemble the first wall panel 11, the second wall panel 12, and the first hinge 13 on-site at the user's location, thus simplifying the installation process.

[0053] The display device can be, but is not limited to, televisions, computer monitors, etc., and is not restricted here.

[0054] The first wall panel 11 is provided with a plurality of first mounting holes 110 for mounting the first wall panel 11 onto the wall by passing a first mounting member through the first mounting holes 110. The second wall panel 12 is provided with a plurality of second mounting holes 120 for mounting the second wall panel 12 onto the wall by passing a second mounting member through the second mounting holes 120.

[0055] The spacing between the first mounting holes 110 is 6 inches, 12 inches, 18 inches, etc., and the spacing between the second mounting holes 120 is 6 inches, 12 inches, 18 inches, etc. This method is applicable not only to cement walls but also to wooden column walls, etc. The specific size can be set according to actual needs and is not limited here.

[0056] Please refer to Figure 2 and Figure 3 , Figure 2 for Figure 1A three-dimensional structural diagram of the bracket 100 in another direction. Figure 3 for Figure 2 The exploded view shows that the first wall panel 11 is provided with a first connector 111, the second wall panel 12 is provided with a second connector 121, and the first hinge 13 is connected between the first connector 111 and the second connector 121.

[0057] Therefore, in this application, a first connector 111 is provided on the first wall panel 11, and a second connector 121 is provided on the second wall panel 12, so that the first hinge 13 is connected between the first connector 111 and the second connector 121, which facilitates installation and ensures a stable and reliable connection.

[0058] The first hinge 13 can be a rivet, screw, hinge or other form, as long as it realizes the hinge connection between the first wall panel 11 and the second wall panel 12, so that the first wall panel 11 and the second wall panel 12 can rotate relative to each other to realize unfolding or folding.

[0059] When the first hinge member 13 is a rivet or a screw, the first wall panel 11 is provided with a first connector 111, the second wall panel 12 is provided with a second connector 121, and the first hinge member 13 is connected between the first connector 111 and the second connector 121, thereby realizing the hinged connection between the first wall panel 11 and the second wall panel 12 through the first hinge member 13.

[0060] When the first hinge 13 is a hinge, it includes two hinge pieces and a hinge pin. On the long side of each hinge piece, there is a row of rolled-up rings. Aligning the rings of the two hinge pieces, one set of rings fits precisely between the other set. The hinge pin is inserted through the center of this row of aligned rings, connecting the two hinge pieces together and allowing them to rotate around the hinge pin. The two hinge pieces are respectively connected to the first wall panel 11 and the second wall panel 12. Thus, the first wall panel 11 and the second wall panel 12 can be rotated around the hinge pin to unfold or fold. Therefore, the first connecting piece 111 and the second connecting piece 121 can be omitted accordingly.

[0061] In some embodiments, please refer to Figure 4 , Figure 4 for Figure 3In the enlarged view at point IV, there are at least two first connectors 111, each with a first connecting hole 111a, and at least two second connectors 121, each with a second connecting hole 121a. The first hinge member 13 includes a hinge rod 131 and two hinge joints 132. The hinge rod 131 passes through the first connecting hole 111a and the second connecting hole 121a to connect between the first connectors 111 and the second connectors 121. The two hinge joints 132 are respectively connected to the two ends of the hinge rod 131 to achieve a stopping function.

[0062] Therefore, in this application, by providing a first connecting hole 111a and a second connecting hole 121a on the first connecting member 111 and the second connecting member 121 respectively, the rotational connection between the first hinge member 13 and the first connecting member 111 and the second connecting member 121 is realized, which is simple in structure and convenient in operation.

[0063] In some embodiments, such as Figure 4 As shown, there are three first connectors 111, located at the upper, middle, and lower ends of one side of the first wall panel 11, respectively. Similarly, there are three second connectors 121, located at the upper, middle, and lower ends of the corresponding sides of the second wall panel 12. Therefore, the three first connectors 111 and the three second connectors 121 are arranged in a one-to-one correspondence, forming three pairs of connectors. Each pair of connectors is stacked in the height direction, which increases the connection strength of that pair. The three pairs of connectors, located at the upper, middle, and lower ends respectively, further enhance the connection strength between the first wall panel 11 and the second wall panel 12.

[0064] It is understood that in other embodiments, the number of the first connector 111 and the second connector 121 is not limited to three, but may also be two or four, etc., and is not limited here.

[0065] It is understood that in other embodiments, the first connector 111 and the second connector 121 may be staggered. For example, if the first connector 111 is located at the upper end and the lower end, then the second connector 121 is located at the upper middle end and the lower middle end.

[0066] In some embodiments, the wall panel assembly 10 further includes a spacer 14 disposed between two adjacent first connectors 111 and between two adjacent second connectors 121.

[0067] Therefore, the spacer 14 is disposed between two adjacent first connectors 111 and between two adjacent second connectors 121, serving to support the two adjacent first connectors 111 and the spacer between the two adjacent second connectors 121. It can provide support when the first hinge 13 applies tension to the two adjacent first connectors 111 and when the first hinge 13 applies tension to the two adjacent second connectors 121, ensuring the structural stability of the first connectors 111 and the second connectors 121 and improving the connection stability between the first hinge 13, the first connectors 111 and the second connectors 121.

[0068] In some embodiments, the spacer 14 is also provided with a third connecting hole 141, and the hinge rod 131 is also passed through the third connecting hole 141.

[0069] Therefore, in this application, the hinge rod 131 is a long rod that can pass through the first connector 111, the spacer 14 and the second connector 121 from top to bottom, which can further improve the connection rigidity.

[0070] It is understood that in other embodiments, each pair of adjacent first connectors 111 and second connectors 121 may be connected by a first hinge 13. For example, when the first wall panel 11 includes four first connectors 111 arranged from top to bottom, and the second wall panel 12 includes four second connectors 121 arranged from top to bottom, the pair of first connectors 111 and the pair of second connectors 121 near the upper end are connected by a first hinge 13, and the pair of first connectors 111 and the pair of second connectors 121 near the lower end are connected by another first hinge 13, which is not limited here.

[0071] In some embodiments, the first connector 111 is formed by folding the body of the first wall panel 11, and the second connector 121 is formed by folding the body of the second wall panel 12.

[0072] Specifically, such as Figure 4 As shown, the first connector 111 at the upper end is formed by vertically folding the upper part of the first wall panel 11, the first connector 111 at the middle end is formed by vertically folding the middle part of the first wall panel 11, and the first connector 111 at the lower end is formed by vertically folding the lower part of the first wall panel 11. Therefore, the first connectors 111 all extend horizontally.

[0073] Similarly, such as Figure 4As shown, the second connector 121 at the upper end is formed by vertically folding the upper part of the second wall panel 12, the second connector 121 at the middle end is formed by vertically folding the middle part of the second wall panel 12, and the second connector 121 at the lower end is formed by vertically folding the lower part of the second wall panel 12. Therefore, the second connectors 121 all extend horizontally.

[0074] Therefore, in this application, the bodies of the first connector 111 and the first wall panel 11 are integrally formed, and the first connector 111 can be formed by stamping or the like, thereby reducing production costs and improving structural strength. The bodies of the second connector 121 and the second wall panel 12 are integrally formed, and the second connector 121 can be formed by stamping or the like, thereby reducing production costs and improving structural strength.

[0075] It is understood that in other embodiments, the bodies of the first connector 111 and the first wall panel 11 are separately disposed and connected together by connectors, or the two are welded together; the bodies of the second connector 121 and the second wall panel 12 are separately disposed and connected together by connectors, or the two are welded together, and this is not limited here.

[0076] In some embodiments, the first connector 111 located in the middle of the first wall panel 11 is bent upward from bottom to top, and the second connector 121 located in the middle of the second wall panel 12 is bent downward from top to bottom. Therefore, in order to form the middle first connector 111, a first inclined surface 111b is formed below the corresponding middle first connector 111 of the first wall panel 11, and in order to form the middle second connector 121, a second inclined surface 121b is formed above the corresponding middle second connector 121 of the second wall panel 12. The first inclined surface 111b and the second inclined surface 121b are arranged in parallel.

[0077] Therefore, in this application, compared to forming the central first connector 111, an L-shaped cut is formed below the central first connector 111, and a first inclined surface 111b is formed below the central first connector 111. This can improve the overall structural strength of the first wall panel 11 while forming the central first connector 111. Similarly, compared to forming the central second connector 121, an inverted L-shaped cut is formed above the central second connector 121, and a second inclined surface 121b is formed above the central second connector 121. This can improve the overall structural strength of the second wall panel 12 while forming the central second connector 121.

[0078] In some embodiments, such as Figure 4As shown, a first abutment 112 is provided on the side of the first wall panel 11 facing away from the hanger 20, and a second abutment 122 is provided on the side of the second wall panel 12 facing away from the hanger 20. When the first wall panel 11 and the second wall panel 12 are in the unfolded state, the first abutment 112 and the second abutment 122 are adapted to be connected to limit the maximum rotation angle between the first wall panel 11 and the second wall panel 12 to 180 degrees.

[0079] Therefore, in this application, the first abutting member 112 and the second abutting member 122 provide a guiding and positioning function for the assembly connection between the first wall panel 11, the second wall panel 12 and the first hinge member 13. Moreover, when the first wall panel 11 and the second wall panel 12 are in the unfolded state, the first abutting member 112 and the second abutting member 122 can abut against each other, preventing the connection end of the first wall panel 11 and the second wall panel 12 from deviating away from the wall under the action of gravity. This ensures that the first wall panel 11 and the second wall panel 12 can maintain an unfolded state of exactly 180 degrees even under the action of gravity, ensuring structural rigidity and improving the load-bearing capacity of the wall panel assembly 10.

[0080] Specifically, in this embodiment, there are three first connectors 111 and three second connectors 121. The three first connectors 111 are spaced apart to form two first spacers 113, and the three second connectors 121 are spaced apart to form two second spacers 123. Therefore, there are two first abutments 112, which are respectively disposed in the two first spacers 113, and two second abutments 122, which are respectively disposed in the two second spacers 123. The first abutments 112 and the second abutments 122 have a one-to-one correspondence. Therefore, a first abutment 112 and a corresponding second abutment 122 are adapted to provide a guiding and positioning function, which facilitates the assembly and connection between the first wall panel 11, the second wall panel 12, and the first hinge 13.

[0081] In some embodiments, the first abutting member 112 is a groove or a protrusion, and the second abutting member 122 is correspondingly provided as a protrusion or a groove.

[0082] Therefore, in this application, one of the first abutting member 112 and the second abutting member 122 is a groove and the other is a protrusion. The mutual abutment of the groove and the protrusion results in stronger structural stability, and the structure is simple, easy to process, and has low processing cost.

[0083] Specifically, in this embodiment, the first abutment 112 of the pair of first abutment members 112 and second abutment members 122 located at the upper end is a groove and the second abutment member 122 is a protrusion. The first abutment member 112 of the pair of first abutment members 112 and second abutment members 122 located at the lower end is a protrusion and the second abutment member 122 is a groove.

[0084] Therefore, in this application, one of the two first abutting members 112 is a groove and the other is a protrusion. Correspondingly, one of the two second abutting members 122 is a protrusion and the other is a groove. This makes the overall structure of the first wall panel 11 and the second wall panel 12 more balanced, more stable under force, and less prone to deformation.

[0085] Please refer to Figure 5 , Figure 5 This is a schematic diagram of the folding process of the wall panel assembly 10 in an embodiment of this application, wherein, Figure 5 Example A illustrates the folding process of wall panel assembly 10. It can be seen that wall panel assembly 10 folds towards the side away from the wall during the folding process, that is, folds forward. The included angle between the first wall panel 11 and the second wall panel 12 is greater than 90 degrees and less than 180 degrees. Figure 5 Example B in the diagram illustrates the folded state of wall panel assembly 10. It is understood that wall panel assembly 10 is already assembled and folded before leaving the factory for ease of packaging and subsequent transportation. During installation at the user's location, wall panel assembly 10 needs to be unfolded first. Figure 1 and Figure 2 The example illustrates the unfolded state of the wall panel assembly 10. It can be understood that in the unfolded state, the first wall panel 11 and the second wall panel 12 are at 180 degrees apart.

[0086] In some embodiments, please refer to Figure 6 , Figure 6 This is an exploded view of the hanging member 20 in an embodiment of this application. The hanging member 20 includes a hanging strip 21, an extension strip 22, and a second hinge member 26. The hanging strip 21 and the extension strip 22 are hinged together by the second hinge member 26.

[0087] Therefore, in this application, the hanging strip 21 and the extension strip 22 are hinged together, and can be folded together during packaging, which greatly reduces the packaging size, thereby reducing packaging material costs and facilitating transportation. In use, the hanging strip 21 and the extension strip 22 can be unfolded, i.e., the included angle between them is 180 degrees, suitable for the installation of large-size display devices, and eliminates the need for on-site assembly of the hanging strip 21 and the extension strip 22 at the user's location, simplifying the installation process.

[0088] It is understandable that when the wall mount 100 is used to suspend small-sized display devices, the extension bar 22 can be removed, leaving only the hanging bar 21. When the wall mount 100 is used to suspend large-sized display devices, the extension bar 22 can be retained; there is no limitation on this.

[0089] Since both the hanging strip 21 and the extension strip 22 have U-shaped cross sections in the XY plane, the hanging strip 21 includes two first side walls, and the extension strip 22 includes two second side walls. Each first side wall and its corresponding second side wall are rotatably connected by a second hinge 26.

[0090] The second hinge 26 can be a rivet, screw, hinge or other form, as long as it realizes the hinge connection between the hanging strip 21 and the extension strip 22, so that the hanging strip 21 and the extension strip 22 can rotate relative to each other to achieve unfolding or folding.

[0091] Both the hanging strip 21 and the extension strip 22 are provided with several connecting holes for fixing to the back of the display device via mounting components.

[0092] In some embodiments, the extension strip 22 is folded relative to the hanging strip 21 by rotating backward. A third abutment 211 is provided on the side of the hanging strip 21 facing away from the wall panel assembly 10, and a fourth abutment 221 is provided on the side of the extension strip 22 facing away from the wall panel assembly 10. When the hanging strip 21 and the extension strip 22 are in an unfolded state, the third abutment 211 and the fourth abutment 221 are adapted to connect, limiting the maximum rotation angle between the hanging strip 21 and the extension strip 22 to 180 degrees.

[0093] Therefore, in this application, the third abutment 211 and the fourth abutment 221 provide a guiding and positioning function for the assembly connection between the hanging strip 21 and the extension strip 22. Moreover, when the hanging strip 21 and the extension strip 22 are in the unfolded state, the third abutment 211 and the fourth abutment 221 can abut against each other, preventing the extension strip 22 from tilting away from the wall under the action of gravity. This ensures that the hanging strip 21 and the extension strip 22 can maintain an unfolded state of exactly 180 degrees even under the action of gravity, ensuring structural rigidity and improving the load-bearing capacity of the hanging strip 21.

[0094] Please refer to Figure 7 , Figure 7 This is a schematic diagram of the folding process of the hanger 100 in this embodiment of the application, wherein, Figure 7 Example A in the diagram illustrates the bending process of the hanging strip 21 relative to the extension strip 22. Figure 7 Example B in the text shows that the extension strip 22 is folded relative to the hanging strip 21.

[0095] In some embodiments, please refer to Figure 8 , Figure 8 This is a schematic diagram of the locking of the pendant 20 in an embodiment of this application. Figure 8 Example A in the example illustrates the unlocked state. Figure 8 Example B in the example illustrates a locked state.

[0096] Specifically, such as Figure 6 and Figure 8 As shown, the top end of the first wall panel 11 and the second wall panel 12 is provided with a first snap-fit ​​part 15, and the bottom end of the first wall panel 11 and the second wall panel 12 is provided with a second snap-fit ​​part 16.

[0097] The hanging piece 20 also includes a hook 23, which has a first side 231 and a second side 232 arranged opposite to each other. The first side 231 of the hook 23 is connected to the hanging strip 21. The top of the second side 232 of the hook 23 is provided with a hook portion 233. The bottom of the second side 232 of the hook 23 is connected with a locking member 24. The hook portion 233 is engaged with the first snap-fit ​​portion 15. When the locking member 24 is engaged with the second snap-fit ​​portion 16, the hanging piece 20 is in a locked state. When the locking member 24 is separated from the second snap-fit ​​portion 16, the hanging piece 20 is in an unlocked state.

[0098] Therefore, in this application, the hook part 233 cooperates with the first snap-fit ​​part 15 to achieve initial suspension, and the locking part 24 and the second snap-fit ​​part 16 are snapped together to achieve locking, which can achieve quick locking and facilitate installation.

[0099] In some embodiments, such as Figure 6 As shown, the locking member 24 includes a safety plate 241, an elastic member 242, and a pull rope 243. The safety plate 241 is slidably connected to the bottom end of the second side 232 of the hook 23. One end of the elastic member 242 is connected to the bottom end of the second side 232 of the hook 23, and the other end of the elastic member 242 is connected to the safety plate 241. The pull rope 243 is connected to the safety plate 241. By applying a downward pulling force to the pull rope 243, the extension length of the safety plate 241 relative to the bottom end of the second side 232 of the hook 23 is changed, thereby changing the engagement state between the safety plate 241 and the second engaging part 16.

[0100] Therefore, in this application, by applying a downward pulling force to the pull rope 243, the safety piece 241 can be driven to move downward relative to the hook 23, and the elastic element 242 is stretched, thereby separating from the second locking part 16. After the external force of pulling down the pull rope 243 disappears, the elastic restoring force of the elastic element 242 drives the safety piece 241 to move upward relative to the hook 23, thereby locking with the second locking part 16, realizing quick locking and quick unlocking.

[0101] In some embodiments, the safety plate 241 is slidably connected to the bottom end of the second side 232 of the hook 23 by providing a sliding groove 241a in the vertical direction of the safety plate 241 and a screw hole 232a at the corresponding position at the bottom end of the second side 232 of the hook 23, and the slidably connected by a rivet 244 passing through the screw hole 232a and the sliding groove 241a.

[0102] Please refer to Figure 9 , Figure 9An exploded view of the locking element 24 and a structural schematic diagram of the locking element 24 in the unlocked state are shown. Figure 9 The pull cord 243 shown is subjected to a downward pulling force, thereby driving the safety plate 241 to move downward relative to the hook 23, and thus being in the unlocked state.

[0103] Please refer to Figure 10 , Figure 10 A schematic diagram illustrating the structure of locking element 24 in the locked state is provided. Figure 10 After the applied downward force on the pull rope 243 disappears, the elastic restoring force of the elastic element 242 drives the safety piece 241 to move upward relative to the hook 23, thus locking it in a locked state.

[0104] In some embodiments, please refer to the references Figure 1 and Figure 6 The hook 23 is provided with a first adjustment structure 2321, the hanging strip 21 is provided with a second adjustment structure 215, and the hanging member 20 also includes an adjustment member 27. The adjustment member 27 is connected to the first adjustment structure 2321 and the second adjustment structure 215. By operating the adjustment member 27, the rotation angle of the hanging strip 21 relative to the hook 23 in the length direction around the hanging frame 100 can be adjusted.

[0105] The length of the hanger 100 is parallel to the X-axis, meaning that the hook 23 and the hanging bar 21 have a degree of freedom to rotate around the X-axis, which allows for adjustment of the pitch angle.

[0106] The first adjustment structure 2321 may include a first arc-shaped hole 2321a and a first fulcrum hole 2321b. The second adjustment structure 215 may correspondingly include a second fulcrum hole 2151 and a second arc-shaped hole 2152. The adjustment member 27 correspondingly includes an adjustment screw 271 and a locking screw 272. The first arc-shaped hole 2321a of the first adjustment structure 2321, the second fulcrum hole 2151 of the second adjustment structure 215 and the adjustment screw 271 of the adjustment member 27 are in a corresponding relationship. The first fulcrum hole 2321b of the first adjustment structure 2321, the second arc-shaped hole 2152 of the second adjustment structure 215 and the locking screw 272 of the adjustment member 27 are in a corresponding relationship.

[0107] Therefore, in this application, the hook 23 and the hanging bar 21 have a pitch adjustment degree of freedom, which can realize the adjustment of the pitch rotation angle of the display device, and the angle adjustment and stable locking can be realized by adjusting the screw 271 and locking the screw 272.

[0108] It is understood that in other embodiments, a horizontal adjustment member may be provided between the hook portion 233 and the first snap-fit ​​portion 15 to adjust the levelness between the two hangers 100.

[0109] It is understood that in other embodiments, other degrees of freedom for adjustment can be added, and there are no limitations on this; adjustments can be made according to actual needs.

[0110] The above describes the subject matter technical solution of this utility model and its corresponding details. It is understood that the above description is only some implementation schemes of the subject matter technical solution of this utility model, and some details may be omitted in the specific implementation.

[0111] Furthermore, in some embodiments of the above utility model, multiple embodiments may be combined. Due to space limitations, all such combinations will not be listed here. Those skilled in the art can freely combine the above embodiments according to their needs to obtain a better application experience.

[0112] In summary, this application possesses the aforementioned superior characteristics, enabling it to achieve unprecedented performance in use and thus become a highly practical product.

[0113] The above description is merely a preferred embodiment of this application and is not intended to limit this application. Any modifications, equivalent substitutions, or improvements made within the spirit and principles of this application should be included within the protection scope of this application.

Claims

1. A rack, characterized in that The wall panel assembly includes a wall panel assembly and two fasteners, wherein the wall panel assembly includes: First wall panel component; Second wall panel component; A first hinge member is connected between the first wall panel member and the second wall panel member; When the first wall panel and the second wall panel are in an unfolded state, they are arranged on the same plane; when the first wall panel and the second wall panel are in a folded state, they are stacked. The two brackets are respectively connected to the first wall panel and the second wall panel, and the two brackets are used together to fix the display device.

2. The rack of claim 1, wherein, The first wall panel is provided with a first connector, the second wall panel is provided with a second connector, and the first hinge is connected between the first connector and the second connector.

3. The rack of claim 2, wherein, The wall panel assembly further includes a spacer, which is disposed between two adjacent first connectors and between two adjacent second connectors.

4. The rack of claim 2, wherein, The first connector is formed by folding the body of the first wall panel, and the second connector is formed by folding the body of the second wall panel.

5. The rack of claim 1, wherein, The first wall panel is provided with a first abutment on the side facing away from the hanger, and the second wall panel is provided with a second abutment on the side facing away from the hanger. When the first wall panel and the second wall panel are in the unfolded state, the first abutment and the second abutment are adapted to be connected to limit the maximum rotation angle between the first wall panel and the second wall panel to 180 degrees.

6. The rack of claim 5, wherein, The first abutting member is a groove or a protrusion, and the second abutting member is correspondingly provided as a protrusion or a groove.

7. The rack of any one of claims 1 to 6, wherein, The hanging component includes a hanging strip, an extension strip, and a second hinge member, wherein the hanging strip and the extension strip are hinged together by the second hinge member.

8. The bracket according to claim 7, characterized in that, The hanging strip has a third abutment on the side facing away from the wall panel assembly, and the extension strip has a fourth abutment on the side facing away from the wall panel assembly. When the hanging strip and the extension strip are in an unfolded state, the third abutment and the fourth abutment are adapted to connect to limit the maximum rotation angle between the hanging strip and the extension strip to 180 degrees.

9. The rack of claim 1, wherein, The hanging component includes a hanging strip; The first wall panel and the second wall panel are provided with a first snap-fit ​​portion at their top ends and a second snap-fit ​​portion at their bottom ends; The hanging accessory also includes a hook, which has a first side and a second side arranged opposite to each other. The first side of the hook is connected to the hanging strip. The top of the second side of the hook is provided with a hook portion. The bottom of the second side of the hook is connected with a locking member. The hook portion is engaged with the first snap-fit ​​portion. When the locking member is engaged with the second snap-fit ​​portion, the hanging accessory is in a locked state. When the locking member is disengaged from the second snap-fit ​​portion, the hanging accessory is in an unlocked state.

10. The rack of claim 9, wherein, The locking element includes a safety plate, an elastic element, and a pull cord. The safety plate is slidably connected to the bottom end of the second side of the hook. One end of the elastic element is connected to the bottom end of the second side of the hook, and the other end of the elastic element is connected to the safety plate. The pull cord is connected to the safety plate. By applying a downward pulling force to the pull cord, the extension length of the safety plate relative to the bottom end of the second side of the hook is changed, thereby changing the engagement state between the safety plate and the second locking part.

11. The rack of claim 9, wherein, The hook is provided with a first adjustment structure, the hanging strip is provided with a second adjustment structure, and the hanging component also includes an adjustment member. The adjustment member is connected to the first adjustment structure and the second adjustment structure. By operating the adjustment member, the rotation angle of the hanging strip relative to the hook in the length direction around the hanging frame can be adjusted.