A clamping mechanism and worktable

By setting a clamping mechanism on the outer wall of the operating table, and utilizing the rotational connection and pressure adjustment of the pressure arm and support arm, the problems of uneven operating table surface and insufficient usable area are solved, achieving a wider clamping range and higher table surface flatness.

CN224323083UActive Publication Date: 2026-06-05POTENTIAL INNOVATION TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
POTENTIAL INNOVATION TECH CO LTD
Filing Date
2025-06-04
Publication Date
2026-06-05

AI Technical Summary

Technical Problem

In the prior art, the workbench surface is uneven and the effective usable area is reduced due to the fixed position of the fasteners, which affects the storage and ease of use of the workbench.

Method used

Design a clamping mechanism including a pressure arm and a support arm. By setting it on the outer wall of the operating table, the pressure range is expanded by the rotational connection and rotation component between the pressure arm and the support arm, avoiding occupying table space, and the clamping force is adjusted by the pressure adjustment component.

Benefits of technology

It expands the clamping range, improves the flatness of the table surface and the effective usable area without occupying table space, and ensures that the object to be fixed can be reliably fixed in any position without damage.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a clamping mechanism and operation platform, clamping mechanism is used for setting on the lateral wall of operation platform to resist pressure and place on the object of fixed object of operation platform, and clamping mechanism includes the arm of resistance pressure and support arm, wherein, one end of the arm of resistance pressure and the first end of support arm are rotatoryly connected in the first direction, and the other end of the arm of resistance pressure is used for resisting pressure and the object of fixed object in the Z axle direction, the second end of support arm is provided with rotating assembly to drive support arm and rotate in the second direction through rotating assembly, and the plane of first direction and the plane of second direction are perpendicular. Through setting clamping mechanism whole on the lateral wall of operation platform, do not occupy the table space of operation platform to increase the effective operation space of operation platform table face. And, through the rotatory connection in the first direction and the rotatory connection in the second direction, greatly expand the resistance pressure range of the arm of resistance pressure, improve the resistance pressure coverage of the arm of resistance pressure, and then guarantee the resistance pressure effect.
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Description

Technical Field

[0001] This utility model relates to the field of mobile phone repair, specifically to a clamping mechanism and an operating table. Background Technology

[0002] When repairing motherboards in electronic devices, it is often necessary to clamp them to securely fix them to the worktable, preventing damage caused by displacement during operation. For deformed motherboards, additional clamping force is required to flatten them as much as possible for easier repair. Currently, existing technologies for clamping motherboards often involve fixing multiple fasteners to the worktable surface. Because these fasteners are fixed in position, they often need to be installed at multiple locations on the worktable to reliably secure the motherboard regardless of its position. This reduces the effective usable area of ​​the worktable and also results in an uneven surface, hindering the overall storage of the worktable.

[0003] Therefore, a new clamping mechanism and operating table are needed to improve the flatness of the operating table surface and the effective usable area while ensuring the clamping effect. Utility Model Content

[0004] Based on the above situation, the main purpose of this utility model is to provide a new clamping mechanism and operating table, so as to improve the flatness of the operating table surface and the effective usable area while ensuring the clamping effect.

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

[0006] In a first aspect, this utility model discloses a clamping mechanism for pressing against an object to be fixed on the outer wall of an operating table. The clamping mechanism includes a pressing arm and a supporting arm, wherein:

[0007] One end of the pressing arm is rotatably connected to the first end of the support arm in a first direction, and the other end of the pressing arm is used to press against the object to be fixed in the Z-axis direction;

[0008] The second end of the support arm is provided with a rotating component to drive the support arm to rotate in the second direction, wherein the plane containing the first direction is perpendicular to the plane containing the second direction.

[0009] Optionally, the first end of the support arm is further provided with a pressure regulating component, wherein the pressure regulating component abuts against the pressure arm and can rotate independently relative to the pressure arm and the support arm, and the pressure regulating component is used to regulate the pressure of the pressure arm in the Z-axis direction.

[0010] Optionally, the pressure regulating mechanism includes:

[0011] Adjustment knob;

[0012] An adjusting rod, the first end of which is fastened to the adjusting knob, and the second end of which passes through the first end of the support arm and is threadedly connected to the support arm.

[0013] Optionally, the pressure regulating mechanism further includes:

[0014] An elastic element is sleeved on the outside of the adjusting rod, with one end of the elastic element abutting against the adjusting knob and the other end of the elastic element abutting against the pressing arm.

[0015] Optionally, a nut is fixedly provided on the support arm, and the second end of the adjusting rod passes through the first end of the support arm and is threadedly connected to the nut.

[0016] Optionally, the rotating assembly includes a rotating shaft, wherein:

[0017] The support arm is rotatably connected to the rotating shaft and the support arm can rotate about the rotating shaft in the second direction;

[0018] The circumference of the rotating shaft is also provided with threads for fastening to the operating table. When the rotating shaft is fastened to the operating table, the rotating shaft is in close contact with the side wall of the support arm.

[0019] Optionally, the rotation angle of the support arm about the rotating assembly in the second direction is 0° to 180°.

[0020] Secondly, this utility model discloses an operating table, comprising:

[0021] The main body has a sliding groove on its side wall;

[0022] The clamping mechanism as described in any one of the first aspects is slidably connected within the slide groove.

[0023] Optionally, it also includes:

[0024] A gasket is fitted over the outside of the rotating assembly of the clamping mechanism, and when the clamping mechanism is fixedly connected to the main body, the gasket is in close contact with both the main body and the clamping mechanism.

[0025] Optionally, the slide is alternately arranged with the buttons and interfaces on the control panel.

[0026] Beneficial effects:

[0027] According to the clamping mechanism and operating table disclosed in this utility model embodiment, the clamping mechanism is used to press against an object placed on the operating table on the outer wall of the operating table. The clamping mechanism includes a pressing arm and a supporting arm. One end of the pressing arm is rotatably connected to the first end of the supporting arm in a first direction, and the other end of the pressing arm is used to press against the object to be fixed in the Z-axis direction. The second end of the supporting arm is provided with a rotating component to drive the supporting arm to rotate in a second direction, and the plane containing the first direction and the plane containing the second direction are perpendicular. By setting the entire clamping mechanism on the outer wall of the operating table, rather than on the table surface, it does not occupy the table surface space, thereby increasing the effective operating space of the operating table surface. Furthermore, the rotatable connection between the pressing arm and the supporting arm in the first direction and the rotatable connection between the supporting arm and the rotating component in the second direction greatly expands the pressing range of the pressing arm and increases the pressing coverage area of ​​the pressing arm, so that the object to be fixed can be reliably fixed by the pressing arm when it is at any position on the table surface, thereby ensuring the pressing effect.

[0028] Other beneficial effects of this utility model will be explained in detail through the introduction of specific technical features and technical solutions in the specific embodiments. Those skilled in the art should be able to understand the beneficial technical effects brought about by the technical features and technical solutions through the introduction of these technical features and technical solutions. Attached Figure Description

[0029] The preferred embodiments of the clamping mechanism and operating table of this utility model will now be described with reference to the accompanying drawings. In the drawings:

[0030] Figure 1 This is a schematic diagram of the structure of a clamping mechanism disclosed in this embodiment;

[0031] Figure 2 This is a cross-sectional structural diagram of a clamping mechanism disclosed in this embodiment;

[0032] Figure 3 This is an exploded view of a pressure regulating component in a clamping mechanism disclosed in this embodiment;

[0033] Figure 4 This is a schematic diagram of the structure of an operating console disclosed in this embodiment. Detailed Implementation

[0034] The present invention will now be described based on embodiments, but the present invention is not limited to these embodiments. In the following detailed description of the present invention, some specific details are described in detail, but well-known methods, processes, procedures, and elements are not described in detail in order to avoid obscuring the essence of the present invention.

[0035] Furthermore, those skilled in the art should understand that the accompanying drawings provided herein are for illustrative purposes only and are not necessarily drawn to scale.

[0036] Unless the context explicitly requires it, the words "comprising," "including," and similar terms throughout the specification and claims should be interpreted as encompassing rather than being exclusive or exhaustive; that is, meaning "including but not limited to."

[0037] In the description of this utility model, it should be understood that the terms "first," "second," etc., are used for descriptive purposes only and should not be construed as indicating or implying relative importance. Furthermore, in the description of this utility model, unless otherwise stated, "a plurality of" means two or more.

[0038] Currently, in existing workbenches, the work surface is used to place motherboards that need to be repaired or heated. Fixing components are fixed to the outer edge of the work surface, such as the four corners or the edge. In general, the fixing components are all on the same plane as the work surface, meaning they protrude from the work surface. This makes the work surface uneven. To avoid affecting the position and stability of the fixing components, other objects must be prevented from squeezing or colliding with them when storing the workbench. This causes great inconvenience to the storage of the workbench.

[0039] To improve the flatness of the worktable surface while maintaining the clamping effect, thus facilitating the storage of the worktable and its use by the operator, this embodiment discloses a clamping mechanism. Please refer to [reference needed]. Figure 1 , Figure 1 This is a schematic diagram of the structure of a clamping mechanism disclosed in this embodiment.

[0040] The clamping mechanism 10 is disposed on the outer wall of the operating table to press against the object to be fixed placed on the operating table. In specific implementation, when the operator uses it, the clamping mechanism 10 can be installed on the outer wall of the operating table, and the object to be fixed can be placed on the table surface, thereby using the clamping mechanism 10 to firmly fix the object to the table surface. In some embodiments, the operating table can be a mobile phone repair operating table, or a heating table, etc.

[0041] like Figure 1 As shown, the clamping mechanism 10 includes a pressing arm 11 and a supporting arm 12. Wherein:

[0042] The pressure arm 11 is used to press down on the object to be fixed on the operating table. In this embodiment, the object to be fixed can be a motherboard, a chip, or other objects, and is not limited thereto. Specifically, a spatial coordinate system is constructed with the surface of the operating table as the xOy plane. The pressure arm 11 applies a certain pressure to the object to be fixed on the operating table in the Z-axis direction, thereby fixing the object to be fixed on the operating table.

[0043] The support arm 12 includes a first end 121 and a second end 122. One end of the pressing arm 11 is rotatably connected to the first end 121 in a first direction, so that the pressing arm 11 can rotate relative to the support arm 12. Figure 1 As shown, the direction of arrow A indicates the first direction, which is the direction of rotation in which the pressure arm 11 can rotate relative to the support arm 12. By rotatably connecting the pressure arm 11 and the support arm 12, the position of the pressure arm 11 relative to the table surface can be adjusted relative to the fixed connection between the pressure arm 11 and the support arm 12, thereby expanding the range in which the pressure arm 11 can be fixed.

[0044] A rotating assembly 13 is provided at the second end 122 of the support arm 12, which drives the support arm 12 to rotate in a second direction. Figure 1 As shown, the direction of arrow B indicates the second direction. The support arm 12 can be rotated in the second direction by the rotating assembly 13. It can be understood that during the rotation of the support arm 12 in the second direction, the pressing arm 11 connected to the support arm 12 also rotates with the support arm 12.

[0045] In the specific implementation process, the rotating component 13 is used to slide in the groove on the side wall of the operating table to drive the support arm 12 to slide relative to the operating table, thereby causing the pressure arm 11 connected to the support arm 12 to slide as well. Compared with the fixed connection between the support arm 12 and the operating table, the range in which the pressure arm 11 can be fixed can be further expanded by adjusting the position of the support arm 12.

[0046] Wherein, the plane containing the first direction is perpendicular to the plane containing the second direction, such as... Figure 1 As shown, the plane containing the first direction can be a horizontal plane parallel to the xOy coordinate plane, and the plane containing the second direction can be a vertical plane parallel to the zOx coordinate plane. Of course, in some other embodiments, the plane containing the second direction can also be a vertical plane parallel to the yOz coordinate plane.

[0047] In this embodiment, the clamping mechanism 10 is integrally mounted on the outer wall of the operating table, without occupying the table surface space, thereby increasing the effective operating space of the operating table surface; and, through the rotational connection between the pressing arm 11 and the support arm 12 in the first direction, and the rotational connection between the support arm 12 and the rotating component 13 in the second direction, the pressing range of the pressing arm 11 is greatly expanded, and the pressing coverage of the pressing arm 11 is increased, so that when the object to be fixed is at any position on the table surface, it can be reliably fixed by the pressing arm 11, thereby ensuring the pressing effect.

[0048] In optional embodiments, such as Figure 1 As shown, the pressure arm 11 includes a pressure head 111, the head end of which has a pressure surface. The pressure surface is used to contact the object to be fixed placed on the operating table and to make contact with the surface of the object to be fixed in order to improve the pressure effect on the object to be fixed.

[0049] In an optional embodiment, the support arm 12 rotates about the rotating assembly 13 in the second direction by an angle of 0° to 180°. The support arm 12 can rotate from 0° to 180° in the second direction, allowing it to rotate to the other side of the worktable. That is, when the support arm 12 rotates 90° in the second direction, it can change from being perpendicular to the xOy plane of the worktable surface to being parallel to the xOy plane of the worktable surface. Furthermore, when the support arm 12 rotates, it can drive the connecting pressing arm 11 to rotate together, thereby removing the pressing arm 11 and the support arm 12 from the worktable surface to ensure the flatness of the worktable surface and facilitate storage.

[0050] In optional embodiments, such as Figure 1As shown, the first end 121 of the support arm 12 is also provided with a pressure regulating component 14. The pressure regulating component 14 abuts against the pressure arm 11 and can rotate independently relative to the pressure arm 11 and the support arm 12. That is, the mutual rotation between the pressure regulating component 14 and the pressure arm 11 and the support arm 12, and the relative rotation between the pressure arm 11 and the support arm 12, do not interfere with each other. Specifically, when the pressure regulating component 14 rotates relative to the pressure arm 11 and the support arm 12, it does not affect the relative rotation between the pressure arm 11 and the support arm 12. The pressure regulating component 14 is used to adjust the pressure of the pressure arm 11 in the Z-axis direction so that the pressure arm 11 can fix the object to be fixed on the operating table. By applying different pressures to the pressure arm 11 along the Z-axis through the pressure adjustment component 14 that contacts the pressure arm 11, the pressure applied by the pressure arm 11 to the object to be fixed can be adjusted. This allows different pressures to be applied to different objects to be fixed, avoiding the instability of clamping and fixing the object due to insufficient pressure, and also avoiding damage to the object due to excessive pressure, thereby improving the pressure-holding effect.

[0051] Please see Figure 2 and Figure 3 , Figure 2 This is a cross-sectional structural diagram of a clamping mechanism disclosed in this embodiment. Figure 3 This is an exploded view of a pressure regulating component in a clamping mechanism disclosed in this embodiment.

[0052] In optional embodiments, such as Figure 2 and Figure 3 As shown, the pressure regulating assembly 14 includes an adjusting knob 141 and an adjusting rod 142. The adjusting rod 142 includes a first end 1421 and a second end 1422. The first end 1421 of the adjusting rod 142 is fastened to the adjusting knob 141, and the second end 1422 of the adjusting rod 142 passes through the first end 121 of the support arm 12 and is threadedly connected to the support arm 12. In this embodiment, the first end 1421 of the adjusting rod 142 is located outside the support arm 12, and the second end 1422 of the adjusting rod 142 passes through the first end 121 of the support arm 12. The second end 1422 of the adjusting rod 142 can either protrude from the support arm 12 or be located inside the support arm 12; this is not limited here. The adjusting knob 141 is fastened to the adjusting rod 142. When the adjusting knob 141 is rotated, the adjusting knob 141 drives the adjusting rod 142 to move axially, that is, to move in the Z-axis direction, thereby adjusting the pressure applied to the pressing arm 11. The more distance the adjusting rod 142 moves in the direction of the second end 122 of the support arm 12, the greater the pressure applied to the pressing arm 11, and thus the greater the pressure applied by the pressing arm 11 to the fixed object.

[0053] In optional embodiments, such as Figure 2 and Figure 3 As shown, the pressure regulating assembly 14 also includes an elastic element 143, which is sleeved on the outside of the regulating rod 142, and one end of the elastic element 143 abuts against the regulating knob 141, while the other end of the elastic element 143 abuts against the pressure arm 11. In this embodiment, the elastic element 143 is sleeved on the outside of the adjusting rod 142, and the two ends of the elastic element 143 abut against the adjusting knob 141 and the pressing arm 11, respectively. When the adjusting knob is rotated, thereby driving the adjusting rod 142 to move axially, the elastic element 143 is deformed by pressure. The elastic element 143 applies pressure to the pressing arm 11, and the elastic element 143 can also play a certain buffering role. Compared with the rigid pressure adjustment of the adjusting rod 142 directly, the use of the elastic element 143 can make the pressure applied to the pressing arm 11 more gentle. It can prevent the adjusting rod 142 from applying too much pressure to the pressing arm 11 when the adjusting knob 141 is rotated due to the threaded connection between the adjusting rod 142 and the support arm 12. This can also avoid applying too much pressure to the pressing arm 11, thereby avoiding damage to the object to be fixed due to excessive pressure applied by the pressing arm 11.

[0054] In optional embodiments, such as Figure 2 As shown, a nut 123 is fixedly installed on the support arm 12. An adjusting rod 142 enters the support arm 12 from its first end, and its second end 1422 exits the support arm 12 and is threadedly connected to the nut 123. The second end 1422 of the adjusting rod 142 is threaded, and the position of the adjusting rod 142 is adjusted through the threaded connection between the adjusting rod 142 and the nut 123, thereby adjusting the pressure applied to the pressure arm 11.

[0055] In optional embodiments, such as Figure 2As shown, the rotating assembly 13 includes a rotating shaft 131, and a support arm 12 is rotatably connected to the rotating shaft 131 and can rotate about the rotating shaft in a second direction. The rotating shaft 131 has threads on its circumference for threaded connection with the operating table, and when the rotating shaft 131 is securely connected to the operating table, it fits tightly against the side wall of the support arm 12. In specific implementations, the operating table can be directly provided with threads that mate with the rotating shaft 131, or it can be fixedly connected to the rotating shaft 131 using a nut or similar material. When the rotating shaft 131 is securely connected to the operating table, it fits tightly against the support arm 12 to fix the position of the support arm 12. That is, when the rotating shaft 131 is securely connected to the operating table, it presses and fixes the support arm 12 between the head end of the rotating shaft 131 and the side wall of the operating table, thereby fixing the position of the support arm 12 and restricting rotation between the support arm 12 and the rotating shaft 131. When the rotating shaft 131 is no longer securely connected to the operating table, there is a gap between the head end of the rotating shaft 131 and the side wall of the operating table. At this time, the support arm 12 can rotate around the rotating shaft 131 in the second direction.

[0056] In an optional embodiment, a through hole 124 for the rotating shaft 131 to pass through is provided at the second end 122 of the support arm 12. The rotating shaft 131 is provided with a head end knob 1311, the outer diameter of which is larger than the outer diameter of the through hole 124 so as to abut against the side wall of the support arm 12. The rotating shaft 131 is rotatably connected to the support arm 12 through the through hole 124. The outer diameter of the head end knob 1311 of the rotating shaft 131 is larger than the outer diameter of the through hole 124, so that when the rotating shaft 131 moves axially, the head end knob 1311 cannot pass through the through hole 124 but abuts against the side wall of the support arm 12, thereby pressing the support arm 12 between the end face of the head end knob 1311 and the side wall of the operating table to fix the position of the support arm 12.

[0057] This embodiment also discloses an operating console; please refer to [link / reference]. Figure 4 , Figure 4 This is a schematic diagram of the structure of an operating table disclosed in this embodiment. In specific implementation, the operating table can be a mobile phone repair operating table, a heating operating table, etc. In this embodiment, a heating table is used as an example to illustrate the structure of the operating table.

[0058] like Figure 4As shown, the operating table 20 includes a main body 21 and a clamping mechanism 10 slidably connected to the main body 21. The clamping mechanism 10 is the clamping mechanism 10 described in any of the above embodiments. A groove 211 is provided on the side wall of the main body 21, and the clamping mechanism 10 is slidably disposed within the groove 211. In this embodiment, the clamping mechanism 10 can be slidably disposed within the groove 211 via a rotating component 13. The groove 211 can be a slide rail penetrating the inside and outside of the main body 21, or a non-penetrating groove disposed on the outside of the main body 21. Preferably, the groove 211 can be a slide rail penetrating the inside and outside of the main body 21, with one end of the rotating component 13 in the clamping mechanism 10 inserted into the slide rail and fixed inside the main body 21 by a threaded connection of a fixed nut. Preferably, there are two grooves 211, symmetrically disposed on two symmetrical side walls of the main body 21, and correspondingly, there are also two clamping mechanisms 10, slidably connected within the two grooves 211.

[0059] In an optional embodiment, the operating table 20 further includes a shim 22, which covers the outer side of the rotating component 13 in the clamping mechanism 10. When the clamping mechanism 10 is fixedly connected to the main body 21, the shim 22 is in close contact with the main body 21 and the clamping mechanism 10. Providing a shim between the clamping mechanism 10 and the main body 21 reduces direct wear between them and also fills the gap between them, thereby improving the stability of the connection between the clamping mechanism 10 and the main body 21.

[0060] In an optional embodiment, the slide 211 and the buttons and interfaces on the operating table 20 are arranged alternately. In this embodiment, the operating table 20 is also provided with control buttons, power interfaces, communication interfaces, etc. By alternating the slide 211 and the buttons and interfaces on the operating table 20, the clamping mechanism 10 avoids interfering with the buttons and interfaces on the operating table 20 during sliding after it is slidably connected to the slide 211, thus ensuring the ease of use of the operating table 20. In a specific implementation, the slide 211 and the buttons and interfaces on the operating table 20 can also be located on different side walls of the main body 21.

[0061] According to the clamping mechanism and operating table disclosed in this utility model embodiment, the clamping mechanism is used to press against an object placed on the operating table on the outer wall of the operating table. The clamping mechanism includes a pressing arm and a supporting arm. One end of the pressing arm is rotatably connected to the first end of the supporting arm in a first direction, and the other end of the pressing arm is used to press against the object to be fixed in the Z-axis direction. The second end of the supporting arm is provided with a rotating component to drive the supporting arm to rotate in a second direction, and the plane containing the first direction and the plane containing the second direction are perpendicular. By setting the entire clamping mechanism on the outer wall of the operating table, rather than on the table surface, it does not occupy the table surface space, thereby increasing the effective operating space of the operating table surface. Furthermore, the rotatable connection between the pressing arm and the supporting arm in the first direction and the rotatable connection between the supporting arm and the rotating component in the second direction greatly expands the pressing range of the pressing arm and increases the pressing coverage area of ​​the pressing arm, so that the object to be fixed can be reliably fixed by the pressing arm when it is at any position on the table surface, thereby ensuring the pressing effect.

[0062] Those skilled in the art will understand that, without conflict, the above-mentioned preferred solutions can be freely combined and superimposed.

[0063] It should be understood that the above-described embodiments are merely exemplary and not restrictive. Without departing from the basic principles of this utility model, any obvious or equivalent modifications or substitutions made by those skilled in the art regarding the above details will be included within the scope of the claims of this utility model.

Claims

1. A clamping mechanism, characterized in that, The clamping mechanism (10) is used to press against an object placed on the outer wall of the operating table to be fixed. It includes a pressing arm (11) and a supporting arm (12), wherein: One end of the pressing arm (11) is rotatably connected to the first end (121) of the support arm in the first direction, and the other end of the pressing arm (11) is used to press the object to be fixed in the Z-axis direction; The second end (122) of the support arm is provided with a rotating component (13) to drive the support arm (12) to rotate in a second direction, wherein the plane containing the first direction is perpendicular to the plane containing the second direction.

2. The clamping mechanism according to claim 1, characterized in that, The first end (121) of the support arm is also provided with a pressure adjustment component (14), wherein the pressure adjustment component (14) abuts against the pressure arm (11) and can rotate independently relative to the pressure arm (11) and the support arm (12), and the pressure adjustment component (14) is used to adjust the pressure of the pressure arm (11) in the Z-axis direction.

3. The clamping mechanism according to claim 2, characterized in that, The pressure regulating assembly (14) includes: Adjustment knob (141); The adjusting rod (142) has its first end (1421) fastened to the adjusting knob (141), and its second end (1422) passes through the first end (121) of the support arm and is threadedly connected to the support arm (12).

4. The clamping mechanism according to claim 3, characterized in that, The pressure regulating assembly (14) further includes: An elastic element (143) is sleeved on the outside of the adjusting rod (142), and one end of the elastic element (143) abuts against the adjusting knob (141), while the other end of the elastic element (143) abuts against the pressing arm (11).

5. The clamping mechanism according to claim 3, characterized in that, A nut (123) is fixedly installed on the support arm (12), and the second end (1422) of the adjusting rod passes through the support arm (12) from the first end (121) of the support arm and is threadedly connected to the nut (123).

6. The clamping mechanism according to claim 1, characterized in that, The rotating assembly (13) includes a rotating shaft (131), wherein: The support arm (12) is rotatably connected to the rotating shaft (131) and the support arm (12) can rotate about the rotating shaft (131) in the second direction; The circumference of the rotating shaft (131) is also provided with threads to be fastened to the operating table. When the rotating shaft (131) is fastened to the operating table, the rotating shaft (131) is tightly fitted to the side wall of the support arm (12).

7. The clamping mechanism according to claim 1, characterized in that, The rotation angle of the support arm (12) around the rotating assembly (13) in the second direction is 0°~180°.

8. An operating console, characterized in that, include: The main body (21) has a sliding groove (211) on its side wall. The clamping mechanism (10) as described in any one of claims 1 to 7 is slidably connected within the slide groove (211).

9. The operating table according to claim 8, characterized in that, Also includes: The gasket (22) is fitted over the outside of the rotating assembly (13) of the clamping mechanism (10), and when the clamping mechanism (10) is fixedly connected to the main body (21), the gasket (22) is tightly fitted to the main body (21) and the clamping mechanism (10) respectively.

10. The operating table according to claim 8, characterized in that, The slide (211) is alternately arranged with the buttons and interfaces on the control panel (20).