A single-pole monitor stand

By employing a single-rod bracket design and a rotating structure self-locking mechanism, the problems of large footprint and high transportation costs of monitor brackets are solved, achieving flexible adjustment and stable fixation.

CN224433980UActive Publication Date: 2026-06-30SHENZHEN JINZHONGZHENG TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENZHEN JINZHONGZHENG TECHNOLOGY CO LTD
Filing Date
2025-09-03
Publication Date
2026-06-30

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Abstract

This utility model relates to the field of monitor stand technology and discloses a single-pole monitor stand, including a support rod. One end of the support rod has a rotating structure, which includes a rotating shaft and a damping plate. The rotating shaft is fixedly connected to the support rod and rotatably connected to the damping plate. The damping plate has a connection hole for fixing it to an external monitor. This technical solution solves the problem of large and heavy stands in the prior art, reducing their footprint on desktop space and lowering transportation costs.
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Description

Technical Field

[0001] This utility model relates to the field of bracket technology, and in particular to a single-pole bracket for a monitor. Background Technology

[0002] A monitor stand is a support device that provides support for a monitor, allowing it to be positioned freely and flexibly without being fixed in place.

[0003] However, existing monitor stands are usually large and bulky, taking up a lot of desktop space, which makes it difficult to arrange other desktop items (such as mice and keyboards) when desktop space is limited; they also lead to high transportation costs. Utility Model Content

[0004] The main purpose of this utility model is to provide a single-pole monitor stand, which aims to solve the problem of monitor stands being too large and bulky in related technologies, reduce their occupation of desktop space and lower transportation costs.

[0005] To achieve the above objectives, the technical solution of this utility model is as follows:

[0006] A single-pole display stand includes a support rod, one end of which is provided with a rotating structure. The rotating structure includes a rotating shaft and a damping plate. The rotating shaft is fixedly connected to the support rod and rotatably connected to the damping plate. The damping plate is provided with a connection hole for fixing it to an external display.

[0007] Furthermore, the projection surface of the damping plate in the axial direction of the rotation axis has a "U" shaped structure; the damping plate includes a bent portion for increasing the contact area between it and the rotation axis.

[0008] Furthermore, the damping sheet is made of an elastic metal material.

[0009] Furthermore, the damping sheet is provided with anti-slip texture to increase the friction between it and the rotating shaft.

[0010] Furthermore, the rotating shaft passes through the support rod, and damping plates are fitted at both ends of the rotating shaft.

[0011] Furthermore, the projection surface of the support rod in the axial direction of the rotation axis has a “]” shaped structure.

[0012] Furthermore, the support rod is provided with a reinforcing plate.

[0013] Furthermore, the support rod is provided with a receiving groove for accommodating the reinforcing sheet.

[0014] Furthermore, the receiving groove is provided with a plurality of reinforcing structures, each of which is arranged sequentially along a linear direction and each of the reinforcing structures includes intersecting reinforcing ribs.

[0015] Furthermore, the end of the support rod away from the rotation axis is provided with a flip groove for facilitating the flipping of the support rod itself.

[0016] The working principle and beneficial effects of this utility model are as follows:

[0017] This utility model mainly includes a support rod, one end of which is provided with a rotating structure. The rotating structure serves as a transfer component between the support rod and the external display. Its rotational action enables the support rod to rotate around the display as the center, thereby adjusting the angle between the support rod and the display and improving the flexibility of use of this utility model.

[0018] Specifically, the rotating structure mainly includes a rotating shaft and a damping plate. The rotating shaft is fixedly connected to the support rod, and also rotatably connected to the damping plate. That is, by means of the static friction between the rotating shaft and the damping plate, the rotating shaft, which rotates as the support rod flips, is fixed, so that the support rod can achieve "self-locking" after flipping.

[0019] Furthermore, the damping plate is provided with connection holes for fixing it to an external display. Specifically, common threaded fasteners such as bolts with nuts can be used to fix the damping plate by connecting it to the display housing with the thread and abutting against each other. Moreover, since there is a rotational connection between the rotating shaft and the damping plate, the relative positional relationship between the rotating shaft and the damping plate is restricted. Thus, after the damping plate is fixed, the entire structure of this utility model can be fixed to the display.

[0020] In summary, this utility model solves the problem of traditional stands being large and heavy by using only one rod to support the monitor; it also reduces the desktop area occupied by this utility model and lowers the transportation cost. Attached Figure Description

[0021] To more clearly illustrate the technical solutions in the embodiments of this utility model 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 utility model. For those skilled in the art, other drawings can be obtained based on the structures shown in these drawings without creative effort.

[0022] Figure 1 This is a schematic diagram of the structure of Example 1 or Example 2;

[0023] Figure 2 for Figure 1 A magnified view of a section at point A in the middle;

[0024] Figure 3 This is a bottom view of Example 1;

[0025] Figure 4 This is a schematic diagram of a possible arrangement of the display and embodiment 1 or 2.

[0026] Figure 5 This is a schematic diagram of a possible arrangement of a display without a screen for either Embodiment 1 or Embodiment 2.

[0027] Figure 6 for Figure 5 A magnified view of a section at point B in the middle;

[0028] Figure 7 This is a bottom view of Example 2.

[0029] Explanation of icon numbers:

[0030] 1. Support rod; 11. Receiving groove; 12. Reinforcing rib; 13. Flip groove; 2. Rotating structure; 21. Rotating shaft; 22. Damping plate; 221. Connecting hole; 222. Bending part; 223. Anti-slip texture; 3. Reinforcing plate.

[0031] The realization of the purpose, functional features and advantages of this utility model will be further explained in conjunction with the embodiments and with reference to the accompanying drawings. Detailed Implementation

[0032] To make the objectives, technical solutions, and advantages of this application clearer, the following detailed description is provided in conjunction with the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative and not intended to limit the scope of this application.

[0033] Example 1

[0034] like Figure 1 , Figure 4 As shown, this embodiment proposes a single-pole monitor stand, which mainly includes a support pole 1. That is, this embodiment relies on only one pole to provide support for the monitor, which fundamentally solves the problem of traditional stands being large and bulky; and reduces the amount of desktop space occupied by this embodiment; and since the overall volume and weight of this embodiment are reduced compared to traditional stands, the corresponding transportation costs are also reduced.

[0035] Specifically, a rotating structure 2 is provided on one end of the support rod 1. The rotating structure 2 includes a rotating shaft 21 and a damping plate 22. The rotating shaft 21 is fixedly connected to the support rod 1, and the rotating shaft 21 is rotatably connected to the damping plate 22. That is, by means of the rotatable connection between the rotating shaft 21 and the damping plate 22, when the user applies force to the support rod 1, the support rod 1 can rotate around the rotating shaft 21 as the rotation center. Thus, after this embodiment is installed on the display, the angle between this embodiment and the display can be adjusted by flipping the support rod 1, effectively improving the flexibility of use of this embodiment.

[0036] Furthermore, by utilizing the static friction force exerted on the rotating shaft 21 by the damping plate 22, the rotating shaft 21, which rotates as the support rod 1 flips, is fixed, enabling the rotating support rod 1 to achieve "self-locking" after flipping, effectively improving the ease of use of this embodiment.

[0037] like Figure 2 , Figures 5-6 As shown, in order to fix this embodiment to the display (display housing), the damping plate 22 in this embodiment is provided with a connection hole 221 for fixing it to the external display. Preferably, a common threaded fastener such as a bolt with a nut is used to cooperate with the connection hole 221, so that the threaded fastener can fix the damping plate 22 at the same time as fixing the external display. Furthermore, since there is a rotational connection between the rotating shaft 21 and the damping plate 22, the relative positional relationship between the rotating shaft 21 and the damping plate 22 is restricted. Thus, after the damping plate 22 is fixed, the entire structure of this embodiment can be fixed to the display.

[0038] Specifically, the projection surface of the damping plate 22 onto the axial direction of the rotating shaft 21 has a "U" shape. At the same time, the damping plate 22 includes a bent portion 222 for increasing the contact area between it and the rotating shaft 21. That is, the opening width of the damping plate 22 is reduced by bending the damping plate 22. Correspondingly, the diameter of the rotating shaft 21 is larger than the opening width of the damping plate 22. In this way, the rotating shaft 21 can be effectively prevented from being difficult to disengage from the opening direction of the damping plate 22 during use, thereby improving the overall structural stability of this embodiment.

[0039] The damping plate 22 is made of an elastic metal material. Thus, the damping plate 22 can deform under force upon contact with the threaded fastener, thereby compressing the rotating shaft 21 and strengthening the damping force exerted by the damping plate 22 on the rotating shaft 21. This further enhances the fixing effect of the rotating shaft 21 when it is not subjected to external force. Furthermore, the deformation of the damping plate 22 is directly related to the position of the threaded fastener. Therefore, the degree of deformation of the damping plate 22 can be controlled by the number of rotations of the threaded fastener on the display housing. This allows the user to adjust the "self-locking" strength of this embodiment according to their needs, effectively improving the flexibility of use.

[0040] Correspondingly, when the damping plate 22 is deformed to its limit position, the end faces of the end of the damping plate 22 away from the rotation axis 21 are arranged flat, so that the damping plate 22 can be in a working state in the form of a symmetrical structure, and the stress acting on the damping plate 22 can be evenly distributed on the damping plate 22.

[0041] Preferably, the damping sheet 22 in this embodiment is made of a copper-based elastic alloy such as beryllium bronze, which has extremely high strength, hardness, excellent fatigue resistance, good corrosion resistance and wear resistance, and is non-magnetic, effectively ensuring the service life of the damping sheet 22.

[0042] The damping plate 22 is provided with anti-slip texture 223 to increase the friction between it and the rotating shaft 21. The presence of anti-slip texture 223 can effectively disrupt the smooth surface of the damping plate 22, thereby increasing the static and dynamic friction coefficients between it and the rotating shaft 21, thus ensuring that the damping plate 22 can provide a greater damping torque to the rotating shaft 21.

[0043] Correspondingly, when the "self-locking" function of this embodiment fails, it can be checked whether the anti-slip texture 223 is worn. If the anti-slip texture 223 is worn, the damping plate 22 can be replaced by removing the threaded fastener, thereby ensuring that this embodiment can operate normally. In order to prevent the user from being scratched by the damping plate 22 during the replacement process, the edges of the damping plate 22 in this embodiment are rounded.

[0044] The rotating shaft 21 passes through the support rod 1, and damping plates 22 are fitted at both ends of the rotating shaft 21. That is, by setting symmetrically distributed damping plates 22 on both sides of the support rod 1, a balanced and huge damping torque is generated, which effectively enhances the "self-locking" performance of the rotating structure 2.

[0045] The projection surface of the support rod 1 in the axial direction of the rotation axis 21 is a "]" shaped structure. Preferably, the open end of the support rod 1 is set towards the display. In this way, when the support rod 1 is parallel to the display housing (the support rod 1 is in contact with the display), it is convenient for the user to flip and bend the support rod 1 to complete the angle adjustment of the support rod 1, thereby improving the ease of use of this embodiment.

[0046] Similarly, the end of the support rod 1 away from the rotation axis 21 is provided with a flip groove 13 for convenient flipping of the support rod 1 itself. The presence of the flip groove 13 also makes it convenient for the user to flip and turn the support rod 1. Furthermore, through the mutual cooperation between the flip groove 13 and the structure of the support rod 1 itself, the user's flexibility in flipping this embodiment can be effectively improved.

[0047] like Figure 3 As shown, the support rod 1 is provided with a reinforcing plate 3, which is preferably a metal plate. Through the cooperation between the support rod 1 and the reinforcing plate 3, the moment of inertia of the support rod 1 is effectively increased, thereby enhancing the bending resistance of this embodiment (rod) and making the rod less prone to buckling deformation, thus improving the overall load-bearing capacity and stability of this embodiment.

[0048] The support rod 1 is provided with a receiving groove 11 for accommodating the reinforcing sheet 3. The opening of the receiving groove 11 ensures that the projection surface of the reinforcing sheet 3 in the direction of the opening of the receiving groove 11 has sufficient area, thereby reducing the excessive interference of the reinforcing sheet 3 on the structure of the "]" shaped support rod 1 (i.e., avoiding the setting of the reinforcing sheet 3 so that when it is parallel to the display shell in this embodiment, there is no gap between them).

[0049] Example 2

[0050] Based on Example 1, such as Figure 7 As shown, the receiving groove 11 in this embodiment is provided with several reinforcing structures. Each reinforcing structure is arranged in sequence along a linear direction, and each reinforcing structure includes intersecting reinforcing ribs 12. The presence of each reinforcing rib 12 can itself play a role similar to a support beam, helping the support rod 1 resist bending deformation in the longitudinal direction. Moreover, the reinforcing ribs 12 in each reinforcing structure are intersected, so that the receiving groove 11 has multiple triangular structures, so that each reinforcing structure can also help the support rod 1 resist bending deformation in the lateral direction, ensuring the structural strength of the support rod 1 itself.

[0051] This ensures that the rod structure maintains good strength even without the reinforcing plate 3 in the receiving groove 11, and also provides effective and stable support. This improves the flexibility of use in this embodiment.

[0052] In the accompanying drawings of this embodiment, the same or similar reference numerals correspond to the same or similar components. In the description of this application, it should be understood that if terms such as "upper," "lower," "left," and "right" indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings, they are only for the convenience of describing this application and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, the terms used to describe positional relationships in the accompanying drawings are only for illustrative purposes and should not be construed as limiting this patent. For those skilled in the art, the specific meaning of the above terms can be understood according to the specific circumstances.

[0053] The above are merely preferred embodiments of this application and are not intended to limit this application. Any modifications, equivalent substitutions, and improvements made within the spirit and principles of this application should be included within the protection scope of this application.

Claims

1. A single-pole monitor stand, characterized in that, The device includes a support rod (1), one end of which is provided with a rotating structure (2). The rotating structure (2) includes a rotating shaft (21) and a damping plate (22). The rotating shaft (21) is fixedly connected to the support rod (1) and rotatably connected to the damping plate (22). The damping plate (22) is provided with a connection hole (221) for fixing it to an external display.

2. The single-pole monitor bracket according to claim 1, characterized in that, The projection surface of the damping plate (22) in the axial direction of the rotation axis (21) has a "U" shaped structure; The damping plate (22) includes a bend (222) for increasing the contact area between it and the rotating shaft (21).

3. The single-pole monitor bracket according to claim 2, characterized in that, The damping sheet (22) is made of an elastic metal material.

4. The single-pole monitor bracket according to claim 2, characterized in that, The damping plate (22) is provided with anti-slip texture (223) to increase the friction between it and the rotating shaft (21).

5. The single-pole monitor bracket according to any one of claims 1 to 4, characterized in that, The rotating shaft (21) passes through the support rod (1), and damping plates (22) are fitted at both ends of the rotating shaft (21).

6. The single-pole monitor bracket according to claim 1, characterized in that, The projection surface of the support rod (1) in the axial direction of the rotation axis (21) is a "]" shaped structure.

7. The single-pole monitor bracket according to claim 1, characterized in that, The support rod (1) is provided with a reinforcing plate (3).

8. The single-pole monitor bracket according to claim 7, characterized in that, The support rod (1) is provided with a receiving groove (11) for accommodating the reinforcing sheet (3).

9. The single-pole monitor bracket according to claim 8, characterized in that, The receiving groove (11) is provided with a number of reinforcing structures, each of which is arranged sequentially along a linear direction and each of the reinforcing structures includes intersecting reinforcing ribs (12).

10. The single-pole display bracket according to claim 1 or 6, characterized in that, The end of the support rod (1) away from the rotation axis (21) is provided with a flip groove (13) for facilitating the flipping of the support rod (1) itself.