Simple micro-tube component clamping and lighting mechanism

By combining a three-point centering structure with a PogoPin lighting module, the problem of uncertainty in clamping miniature cylindrical components is solved, achieving stable clamping and rapid lighting.

CN224399429UActive Publication Date: 2026-06-23DONGGUAN PRIMAX ELECTRONIC & TEKLECOM PROD LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
DONGGUAN PRIMAX ELECTRONIC & TEKLECOM PROD LTD
Filing Date
2025-05-07
Publication Date
2026-06-23

AI Technical Summary

Technical Problem

In the existing technology, the fixation of micro-miniature tubular electronic components lacks a reference, resulting in clamping uncertainty and affecting production quality.

Method used

The clamping mechanism adopts a three-point centering structure, which uses a combination of a U-shaped positioning part and a swing rod. The contact point on the swing rod and the contact point of the U-shaped positioning part are used as a reference to ensure that the center is fixed during clamping. Combined with the PogoPin lighting module, it realizes the electrical conduction of components and quick clamping.

Benefits of technology

It enables stable clamping and lighting of miniature cylindrical components, reduces production errors, is suitable for most electronic products, and supports quick removal.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224399429U_ABST
    Figure CN224399429U_ABST
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Abstract

The utility model discloses a simple and easy miniature round pipe type component and device clamping lighting mechanism, it includes: support frame, U type positioning part, swing lever, hinge and install on the support frame and be used for pushing swing lever swing and move away from component and device handle, be used for pulling swing lever and be used for pulling swing lever and be used for pulling swing lever and be used for connecting swing lever and handle and cylinder and tension spring linkage assembly, one end of swing lever is provided with third contact part for pressing component and device, and U type positioning part is inclined to swing lever, and is provided with first contact point and second contact point for lifting component and device. Adopt first contact point and second contact point on U type positioning part as base point, through third contact point part on swing lever as clamping point, constitute three point centering structure to ensure that each time clamping tubular component and device, will take two points of round pipe circumference as reference, make the center of circle fixed in same position.
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Description

Technical fields:

[0001] This utility model relates to the field of electronic product manufacturing technology, and specifically refers to a simple micro-tube-shaped component clamping and lighting mechanism. Background technology:

[0002] In the industry, clamping electronic components typically utilizes clamping cylinders. For example, Chinese Patent Publication No. CN210389230U discloses a clamping device for electronic components, including a base and at least one set of clamping mechanisms for clamping electronic components. Each clamping mechanism includes a first power unit, a clamping cylinder for clamping electronic components, and an adjustment mechanism for adjusting the angle of the clamping cylinder. The clamping cylinder is slidably mounted on the base. The first power unit is mounted on the base and is driven by the clamping cylinder, driving it to move up and down. The adjustment mechanism is mounted on the base and is driven by the clamping cylinder, driving it to rotate. By driving the clamping cylinder downward with the first power unit, multiple electronic components can be clamped at once, improving clamping efficiency. Simultaneously, the adjustment mechanism can adjust the angle of the clamping cylinder, allowing the clamping device to adapt to different types of electronic components, thus saving costs.

[0003] However, for micro-sized tubular electronic components, since the cylinder clamping uses two points of simultaneous clamping without a fixed reference, the tubular products lack a reference for fixation. This results in errors in product fixation, which can easily introduce uncertainties into the production process and affect the product quality.

[0004] In view of the above, the inventors propose the following technical solution. Utility model content:

[0005] The purpose of this invention is to overcome the shortcomings of the existing technology and provide a simple micro-tube-shaped component clamping and lighting mechanism.

[0006] To solve the above-mentioned technical problems, the present invention adopts the following first technical solution:

[0007] A simple micro-tube-shaped component clamping and lighting mechanism includes: a support frame, a U-shaped positioning part disposed on the support frame for positioning the component, a swing rod hinged to the U-shaped positioning part for clamping the component, and a power source disposed on the support frame for pushing the swing rod to clamp or release the component in conjunction with the U-shaped positioning part. The swing rod has a third contact part for pressing the component at one end, and the U-shaped positioning part is inclined toward the swing rod and has a first contact point and a second contact point for supporting the component.

[0008] Furthermore, in the above technical solution, the power source includes a handle hinged to the support frame and used to push the swing rod to swing away from the component, and a tension spring set on the support frame and used to pull the swing rod to clamp the component.

[0009] Furthermore, in the above technical solution, the middle part of the swing rod is hinged to the support frame, and the other end of the swing rod is connected to the handle by a linkage component, and the two ends of the tension spring are respectively connected to the support frame and the linkage component.

[0010] Furthermore, in the above technical solution, the power source includes a cylinder mounted on the support frame and used to push the swing rod to swing away from the component, a linkage assembly disposed between the cylinder and the swing rod, and a tension spring disposed between the support frame and the linkage assembly and used to pull the swing rod to clamp the component. The middle part of the swing rod is hinged to the support frame, and the other end of the swing rod is connected to the cylinder through the linkage assembly.

[0011] Furthermore, in the above technical solution, the support frame is also provided with a lighting module for contacting and illuminating components. The lighting module is located next to the U-shaped positioning part and can be electrically connected to the components.

[0012] Furthermore, in the above technical solution, the lighting module includes a guide pin seat for making electrical contact with the component cable and a sliding cover plate that is slidably mounted on the support frame and used to press the component cable into contact with the guide pin seat, wherein the sliding cover plate is linked to the linkage component.

[0013] Furthermore, in the above technical solution, an L-shaped swing plate for connecting the linkage component and the sliding cover is hingedly installed on the support frame. One end of the L-shaped swing plate is hinged to the linkage component through a second pin, and the other end of the L-shaped swing plate extends into the sliding cover through a fourth pin.

[0014] To solve the above-mentioned technical problems, the present invention adopts the following first technical solution:

[0015] A simple micro-tube-shaped component clamping and lighting mechanism includes: a support frame; a U-shaped positioning part disposed on the support frame for positioning the component; a swing rod hinged to the U-shaped positioning part for clamping the component; a handle hinged to the support frame for pushing the swing rod to swing away from the component; a tension spring disposed on the support frame for pulling the swing rod to clamp the component; a cylinder mounted on the support frame for pushing the swing rod to swing away from the component; and a linkage assembly for connecting the swing rod, the handle, the cylinder, and the tension spring. One end of the swing rod is provided with a third contact part for pressing the component, and the U-shaped positioning part is inclined towards the swing rod and is provided with a first contact point and a second contact point for lifting the component.

[0016] Furthermore, in the above technical solution, the support frame is also provided with a lighting module for contacting and lighting up components. This module includes a guide pin seat for electrical contact with the component cable and a sliding cover plate that is slidably mounted on the support frame and used to press the component cable into contact with the guide pin seat. The sliding cover plate is linked to the linkage component.

[0017] Furthermore, in the above technical solution, the linkage assembly includes a first link, a second link, an L-shaped swing plate, and a connecting seat that are hinged together. The second link is T-shaped, and its three ends are connected to the swing rod, the L-shaped swing plate, and the connecting seat via a first pin, a second pin, and a third pin, respectively. One end of the first link is hinged to the swing rod and the second link via a first pin, and the other end of the first link is hinged to the handle, with a tension spring connected to one end of the first link. The other end of the connecting seat is connected to the piston of the cylinder. The middle part of the L-shaped swing plate is hinged to the support frame, and the other end of the L-shaped swing plate extends into the sliding cover via a fourth pin.

[0018] By adopting the above technical solution, this utility model has the following beneficial effects compared with the prior art:

[0019] 1. In this utility model, the first and second contact points on the U-shaped positioning part are used as base points, and the third contact point on the swing rod is used as the clamping point to form a three-point centering structure. This ensures that when clamping tubular components, the two points on the circumference of the tube are used as references to fix the center in the same position. Moreover, the structure of this mechanism is compact and suitable for most electronic products.

[0020] 2. This utility model incorporates a PogoPin lighting module on the support frame, enabling the component to be illuminated while it is being clamped. Furthermore, the sliding cover is linked to the linkage assembly, allowing the cover to close and press against the component's cable as the power source drives the swing arm to clamp and release it. This ensures the component is illuminated while clamped and releases its cable as it is released, facilitating quick removal of the component. Attached image description:

[0021] Figure 1 This is a side view of the present invention;

[0022] Figure 2 This is a three-dimensional representation of the present invention. Figure 1 ;

[0023] Figure 3 This is a three-dimensional representation of the present invention. Figure 2 . Detailed implementation method:

[0024] The present invention will be further described below with reference to specific embodiments and accompanying drawings.

[0025] See Figures 1 to 3 The diagram shows a simple micro-tube-shaped component clamping and lighting mechanism, comprising: a support frame 1; a U-shaped positioning part 2 mounted on the support frame 1 for positioning component A; a swing rod 3 hinged to the U-shaped positioning part 2 for clamping component A; and a power source mounted on the support frame 1 for pushing the swing rod 3 to clamp or release component A in conjunction with the U-shaped positioning part 2. One end of the swing rod 3 has a third contact part 31 for pressing component A. The U-shaped positioning part 2 is inclined towards the swing rod 3 and has a first contact point 21 and a second contact point 22 for supporting component A. Using the first contact point 21 and the second contact point 22 on the U-shaped positioning part 2 as base points, and the third contact point 31 on the swing rod 3 as the clamping point, a three-point centering structure is formed. This ensures that each time the tubular component A is clamped, two points on the circumference of the tube are used as references, fixing the center in the same position. Furthermore, this mechanism has a compact structure and is suitable for most electronic products.

[0026] The power source includes a handle 4 hinged to the support frame 1 for pushing the swing rod 3 to swing away from the component A, and a tension spring 5 set on the support frame 1 for pulling the swing rod 3 to clamp the component A.

[0027] The middle part of the swing rod 3 is hinged to the support frame 1, and the other end of the swing rod 3 is connected to the handle 4 by a linkage component 6. The two ends of the tension spring 5 are respectively connected to the support frame 1 and the linkage component 6.

[0028] The power source includes a cylinder 7 mounted on the support frame 1 for pushing the swing rod 3 to swing away from the component A, a linkage assembly 6 disposed between the cylinder 7 and the swing rod 3, and a tension spring 5 disposed between the support frame 1 and the linkage assembly 6 for pulling the swing rod 3 to clamp the component A. The middle part of the swing rod 3 is hinged to the support frame 1, and the other end of the swing rod 3 is connected to the cylinder 7 through the linkage assembly 6.

[0029] The support frame 1 is also equipped with a lighting module 8 for contacting and illuminating component A. This lighting module 8 is located beside the U-shaped positioning part 2 and is electrically connected to component A. The lighting module 8 includes a guide pin seat 81 for contacting and electrically connecting with the ribbon cable of component A, and a sliding cover plate 82 slidably mounted on the support frame 1 for pressing the ribbon cable of component A into contact with the guide pin seat 81. The sliding cover plate 82 is linked to the linkage component 6. By adding the PogoPin lighting module 8 to the support frame 1, component A can be illuminated while being clamped. Furthermore, by linking the sliding cover plate 82 to the linkage component 6, when the power source drives the swing rod 3 to clamp and release component A, the cover plate 82 simultaneously closes, presses, and disengages from the ribbon cable of component A, so that component A is illuminated while being clamped, and the lighting module 8 releases the ribbon cable while component A is released, facilitating the quick removal of component A.

[0030] The support frame 1 is hinged to an L-shaped swing plate 63 for connecting the linkage component 6 and the sliding cover plate 82. One end of the L-shaped swing plate 63 is hinged to the linkage component 6 via a second pin 66, and the other end of the L-shaped swing plate 63 extends into the sliding cover plate 82 via a fourth pin.

[0031] See Figures 1 to 3 As shown, a simple micro-tube-shaped component clamping and lighting mechanism includes: a support frame 1, a U-shaped positioning part 2 mounted on the support frame 1 for positioning component A, a swing rod 3 hinged to the U-shaped positioning part 2 for clamping component A, a handle 4 hinged to the support frame 1 for pushing the swing rod 3 away from component A, a tension spring 5 mounted on the support frame 1 for pulling the swing rod 3 to clamp component A, a cylinder 7 mounted on the support frame 1 for pushing the swing rod 3 away from component A, and a linkage assembly 6 for connecting the swing rod 3 with the handle 4, the cylinder 7, and the tension spring 5. One end of the swing rod 3 is provided with a third contact part 31 for pressing component A, the U-shaped positioning part 2 is inclined towards the swing rod 3, and is provided with a first contact point 21 and a second contact point 22 for lifting component A. Using the first contact point 21 and the second contact point 22 on the U-shaped positioning part 2 as the base point, and the third contact point 31 on the swing rod 3 as the clamping point, a three-point centering structure is formed. This ensures that each time the tubular component A is clamped, the two points on the circumference of the tube are used as references to fix the center in the same position. Moreover, the structure of this mechanism is compact and suitable for most electronic products.

[0032] The support frame 1 is also equipped with a lighting module 8 for contacting and illuminating component A. This module includes a guide pin seat 81 for electrical contact with the component A's ribbon cable and a sliding cover plate 82 slidably mounted on the support frame 1 to press the component A's ribbon cable into contact with the guide pin seat 81. The sliding cover plate 82 is linked to the linkage component 6. By adding the PogoPin lighting module 8 to the support frame 1, component A can be illuminated while being clamped. Furthermore, by linking the sliding cover plate 82 to the linkage component 6, when the power source drives the swing rod 3 to clamp and release component A, the cover plate 82 simultaneously closes, presses, and disengages from the ribbon cable of component A, allowing component A to be illuminated while being clamped and released from contact with the ribbon cable when being released, facilitating the quick removal of component A.

[0033] The linkage assembly 6 includes a first link 61, a second link 62, an L-shaped swing plate 63, and a connecting seat 64 that are hinged together. The second link 62 is T-shaped, and its three ends are connected to the swing rod 3, the L-shaped swing plate 63, and the connecting seat 64 via a first pin 65, a second pin 66, and a third pin 67, respectively. One end of the first link 61 is hinged to the swing rod 3 and the second link 62 via a first pin 65, and the other end of the first link 61 is hinged to the handle 4. A tension spring 5 is connected to one end of the first link 61. The other end of the connecting seat 64 is connected to the piston of the cylinder 7. The middle part of the L-shaped swing plate 63 is hinged to the support frame 1, and the other end of the L-shaped swing plate 63 extends into the sliding cover plate 82 via a fourth pin 68.

[0034] In summary, when using this utility model, firstly, by gently pushing the handle 4, the swing rod 3 is swung by the linkage component 6, causing the third contact point 31 to move away from the first contact point 21 and the second contact point 22, and the tension spring 5 to extend; further, component A is placed in the clamping space between the three contact point 31 and the first contact point 21 and the second contact point 22, and the FPC flexible board of component A is placed at the PogoPin position of the lighting module 8; further, the handle 4 is released. Under the force of the tension spring 5, the third contact point 31 on the swing rod 3 swings towards the U-shaped positioning part 2 and clamps with the component A. At the same time, the linkage assembly 6 drives the sliding cover plate 82 to slide onto the guide pin seat 81 to press and conduct the FPC flexible board of the component A, thereby lighting up the component A. Furthermore, when the component A is removed, the cylinder 7 extends to push the linkage assembly 6 to drive the swing rod 3 and the sliding cover plate 82 to release the component A and the FPC flexible board respectively, so that the component A can automatically detach.

[0035] Of course, the above description is only a specific embodiment of the present utility model and is not intended to limit the scope of the present utility model. All equivalent changes or modifications made to the structure, features and principles described in the claims of the present utility model should be included in the scope of the claims of the present utility model.

Claims

1. A simple micro-tube-shaped component clamping and lighting mechanism, characterized in that, include: The support frame (1), the U-shaped positioning part (2) set on the support frame (1) and used to position the component (A), the swing rod (3) hinged to the U-shaped positioning part (2) and used to clamp the component (A), and the power source set on the support frame (1) and used to push the swing rod (3) to cooperate with the U-shaped positioning part (2) to clamp or release the component (A), wherein one end of the swing rod (3) is provided with a third contact part (31) for pressing the component (A), the U-shaped positioning part (2) is inclined towards the swing rod (3) and is provided with a first contact point (21) and a second contact point (22) for lifting the component (A).

2. The simple micro-tube-shaped component clamping and lighting mechanism according to claim 1, characterized in that: The power source includes a handle (4) hinged to the support frame (1) for pushing the swing rod (3) to swing away from the component (A) and a tension spring (5) set on the support frame (1) for pulling the swing rod (3) to clamp the component (A).

3. The simplified micro-tube-shaped component clamping and lighting mechanism according to claim 2, characterized in that: The middle part of the swing rod (3) is hinged to the support frame (1), and the other end of the swing rod (3) is connected to the handle (4) by a linkage component (6), and the two ends of the tension spring (5) are respectively connected to the support frame (1) and the linkage component (6).

4. The simple micro-tube-shaped component clamping and lighting mechanism according to claim 1, characterized in that: The power source includes a cylinder (7) mounted on the support frame (1) for pushing the swing rod (3) to swing away from the component (A), a linkage assembly (6) disposed between the cylinder (7) and the swing rod (3), and a tension spring (5) disposed between the support frame (1) and the linkage assembly (6) for pulling the swing rod (3) to clamp the component (A). The middle part of the swing rod (3) is hinged to the support frame (1), and the other end of the swing rod (3) is connected to the cylinder (7) through the linkage assembly (6).

5. A simple micro-tube-shaped component clamping and lighting mechanism according to claim 3 or 4, characterized in that: The support frame (1) is also provided with a lighting module (8) for contacting and lighting the component (A). The lighting module (8) is located next to the U-shaped positioning part (2) and can be electrically connected to the component (A).

6. A simple micro-tube-shaped component clamping and lighting mechanism according to claim 5, characterized in that: The lighting module (8) includes a guide pin seat (81) for making electrical contact with the component (A) cable and a sliding cover plate (82) that is slidably mounted on the support frame (1) and used to press the component (A) cable into contact with the guide pin seat (81). The sliding cover plate (82) is linked to the linkage component (6).

7. A simple micro-tube-shaped component clamping and lighting mechanism according to claim 6, characterized in that: The support frame (1) is hinged to an L-shaped swing plate (63) for connecting the linkage assembly (6) and the sliding cover plate (82). One end of the L-shaped swing plate (63) is hinged to the linkage assembly (6) via a second pin (66), and the other end of the L-shaped swing plate (63) extends into the sliding cover plate (82) via a fourth pin ().

8. A simple micro-tube-shaped component clamping and lighting mechanism, characterized in that, include: Support frame (1), U-shaped positioning part (2) set on support frame (1) for positioning component (A), swing rod (3) hinged to U-shaped positioning part (2) for clamping component (A), handle (4) hinged to support frame (1) for pushing swing rod (3) away from component (A), tension spring (5) set on support frame (1) for pulling swing rod (3) to clamp component (A), mounted on support frame (1) The upper part is equipped with a cylinder (7) for pushing the swing rod (3) to swing away from the component (A) and a linkage assembly (6) for connecting the swing rod (3) with the handle (4), the cylinder (7) and the tension spring (5). One end of the swing rod (3) is provided with a third contact part (31) for pressing the component (A). The U-shaped positioning part (2) is inclined towards the swing rod (3) and is provided with a first contact point (21) and a second contact point (22) for lifting the component (A).

9. A simple micro-tube-shaped component clamping and lighting mechanism according to claim 8, characterized in that: The support frame (1) is also provided with a lighting module (8) for contacting and lighting up the component (A). The module includes a guide pin seat (81) for contacting and electrically connecting with the component (A) cable and a sliding cover plate (82) that is slidably mounted on the support frame (1) and used to press the component (A) cable into contact with the guide pin seat (81). The sliding cover plate (82) is linked to the linkage component (6).

10. A simple micro-tube-shaped component clamping and lighting mechanism according to claim 9, characterized in that: The linkage assembly (6) includes a first link (61), a second link (62), an L-shaped swing plate (63), and a connecting seat (64) hinged together. The second link (62) is T-shaped, and its three ends are connected to the swing rod (3), the L-shaped swing plate (63), and the connecting seat (64) via a first pin (65), a second pin (66), and a third pin (67), respectively. One end of the first link (61)... The first end is hinged to the swing rod (3) and the second connecting rod (62) via the first pin (65). The other end of the first connecting rod (61) is hinged to the handle (4), and the tension spring (5) is connected to one end of the first connecting rod (61). The other end of the connecting seat (64) is connected to the piston of the cylinder (7). The middle part of the L swing plate (63) is hinged to the support frame (1). The other end of the L swing plate (63) extends into the sliding cover plate (82) via the fourth pin (68).