A high-precision electromechanical component connecting structure

By improving the mounting components and cover structure, the problem of inconvenient disassembly of high-precision electromechanical component connection structures has been solved, enabling rapid disassembly and cleaning, and improving ease of use and reliability.

CN224384690UActive Publication Date: 2026-06-19HUAIAN JINJIAYIN TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HUAIAN JINJIAYIN TECHNOLOGY CO LTD
Filing Date
2025-06-27
Publication Date
2026-06-19

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Abstract

The utility model discloses a high accuracy electromechanical assembly component connection structure relates to electromechanical assembly component connection structure technical field, including first mounting piece, second mounting piece and electromechanical assembly component ontology. Through the installation of electromechanical assembly component ontology in the inside of first mounting piece, subsequently install through the sliding block on the top of first mounting piece to the cover plate, and to the pull rod pull, so that two plug -in blocks can be received into the inside of cover plate, subsequently carry out the plug -in between first mounting piece and second mounting piece, so that the plug -in rod can with the reserved slot and carry out the plug -in, subsequently through the loosening of pull rod, so that two plug -in blocks can produce reset, subsequently lock -tightly to the plug -in plug -in rod, thereby avoid the need bolt and carry out dismounting, vice versa when dismounting can through the movement of the toothed plate, drive cleaning brush and move, and clean the filter screen, so that not only convenient dismounting, but also can have better cleaning effect when dismounting.
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Description

Technical Field

[0001] This utility model relates to the technical field of electromechanical component connection structure, specifically a high-precision electromechanical component connection structure. Background Technology

[0002] The component connection structure in high-precision electromechanical components is the core guarantee for the reliable operation of the system. The precise fit between the male and female contacts forms a low-resistance path through elastic deformation, ensuring the stability and integrity of current and signal transmission. The combination of shielding shell and insulator suppresses electromagnetic interference and prevents signal distortion.

[0003] According to announcement number CN215732490U, a high-density connector for mid-to-high-end electromechanical components is provided. By setting a connecting device and a fixing device on the entire device, two locking blocks are engaged in two slots, and two bolts are rotated clockwise to engage the right outer shell with the side plate. This effectively avoids the problem of the connector loosening when subjected to external force and ensures the effectiveness of the communication line connection.

[0004] In the aforementioned patent, rotating the bolt clockwise ensures the snap-fit ​​installation of the right outer shell and the side plate. While this achieves a locking effect, it requires multiple tightening of the bolt during disassembly and subsequent installation. This not only makes tightening inconvenient but also easily causes the bolt to strip, further hindering subsequent disassembly and installation. Consequently, it makes it difficult for users to inspect the internal high-precision electromechanical components. Utility Model Content

[0005] The purpose of this utility model is to provide a high-precision electromechanical component connection structure to solve the problem that the high-precision electromechanical component connection structure mentioned in the background art is inconvenient to install and disassemble.

[0006] To achieve the above objectives, this utility model provides the following technical solution: a high-precision electromechanical component connection structure, comprising a first mounting member, a second mounting member, and an electromechanical component body. A second mounting member is disposed on one side of the first mounting member. The electromechanical component body is mounted inside the first mounting member. A plug-in rod is disposed on the side of the second mounting member near the first mounting member. A protective pad is disposed inside the first mounting member, and the protective pads are symmetrically distributed inside the first mounting member. A cover plate is disposed at the top of the first mounting member, and a slider is disposed at the bottom of the cover plate, and the sliders are symmetrically distributed at the bottom of the cover plate. A sliding groove matching the slider is formed inside the first mounting member, and the sliding grooves are symmetrically distributed at the top of the first mounting member.

[0007] Preferably, the protective pad is made of rubber, and the slider is shaped like a "T".

[0008] Preferably, a filter screen is provided inside the cover plate, the filter screen is symmetrically distributed inside the cover plate, and a reserved groove is provided on the side of the cover plate near the filter screen.

[0009] Preferably, the reserved slot is provided with a matching collection frame inside, and the bottom of the collection frame is provided with a magnetic block, which is symmetrically distributed at the bottom of the collection frame.

[0010] Preferably, a toothed plate is provided inside the cover plate near the filter screen at one end. The toothed plates are symmetrically distributed inside the cover plate, and a gear is meshed with one side of the toothed plate.

[0011] Preferably, the toothed plate has a plug-in block at the end away from the gear for plugging into the plug-in rod, a return spring is connected inside the toothed plate and the cover plate, and a pull rod is connected to the top of one of the toothed plates.

[0012] Preferably, a connecting rod is provided at the top of the toothed plate, and a cleaning brush is connected to one end of the connecting rod.

[0013] Compared with the prior art, the beneficial effects of this utility model are:

[0014] This high-precision electromechanical component connection structure allows for the following steps during installation: First, the component body is installed inside the first mounting component. Then, the cover plate, along with a slider connected to its bottom end, slides within a groove at the top of the first mounting component, providing protection to the top of the component. Next, the first mounting component containing the component body is aligned with the second mounting component, allowing the connector block to connect with the insertion hole inside the connector rod. This locks the connector block in place, preventing it from becoming loose. At this point, the cover plate and the first mounting component... The cover plate and the second mounting component form a locking structure, which prevents loosening after installation. When the cover plate needs to be removed, the pull rod at the top can be pulled to one side to move the plug block, thereby separating the plug block from the plug rod and freeing the plug rod from its restraint. Then the cover plate can be pulled out. At the same time, the two toothed plates can move the connected cleaning brush, allowing the cleaning brush to clean the surface of the filter screen. This means that the high-precision electromechanical component connection structure can not only avoid the risk of stripping the bolts during disassembly, but also clean the filter screen during the disassembly process. Attached Figure Description

[0015] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0016] Figure 2 This is a three-dimensional explosion diagram of the present invention;

[0017] Figure 3 This is a three-dimensional structural diagram of the second mounting component of this utility model;

[0018] Figure 4 This is a three-dimensional sectional view of the cover plate of this utility model;

[0019] Figure 5 This is a three-dimensional structural diagram of the cover plate of this utility model.

[0020] In the diagram: 1. First mounting component; 2. Second mounting component; 3. Electromechanical component body; 4. Connecting rod; 5. Protective pad; 6. Cover plate; 7. Sliding block; 8. Slide groove; 9. Filter screen; 10. Reserved slot; 11. Collection frame; 12. Magnetic block; 13. Toothed plate; 14. Gear; 15. Connecting block; 16. Return spring; 17. Pull rod; 18. Connecting rod; 19. Cleaning brush. Detailed Implementation

[0021] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0022] Please see Figures 1-5 This utility model provides a technical solution: a high-precision electromechanical component connection structure, including a first mounting part 1, a second mounting part 2, and an electromechanical component body 3. The second mounting part 2 is provided on one side of the first mounting part 1. The electromechanical component body 3 is installed inside the first mounting part 1. A plug-in rod 4 is provided on the side of the second mounting part 2 near the first mounting part 1. A protective pad 5 is provided inside the first mounting part 1. The protective pad 5 is symmetrically distributed inside the first mounting part 1. A cover plate 6 is provided at the top of the first mounting part 1. A slider 7 is provided at the bottom of the cover plate 6. The slider 7 is symmetrically distributed at the bottom of the cover plate 6. A sliding groove 8 matching the slider 7 is opened inside the first mounting part 1, and the sliding groove 8 is symmetrically distributed at the top of the first mounting part 1.

[0023] This high-precision electromechanical component connection structure has a first mounting part 1 and a cover plate 6 with a socket that matches the plug rod 4 on one side.

[0024] exist Figure 2In this design, the protective pad 5 is made of rubber, the slider 7 is shaped like a "T", the cover plate 6 has a filter screen 9 inside, the filter screen 9 is symmetrically distributed inside the cover plate 6, the cover plate 6 has a reserved groove 10 on the side near the filter screen 9, the reserved groove 10 has a matching collection frame 11 inside, the bottom of the collection frame 11 has a magnetic block 12, the magnetic block 12 is symmetrically distributed at the bottom of the collection frame 11.

[0025] This high-precision electromechanical component connection structure, through the setting of the filter screen 9, can filter out external dust and impurities, preventing them from entering and causing damage to the high-precision electromechanical components. At the same time, through the setting of the magnetic block 12, it prevents the collection frame 11 from falling off at one end of the cover plate 6.

[0026] exist Figure 4 and Figure 5 In the cover plate 6, a toothed plate 13 is provided at one end near the filter screen 9. The toothed plates 13 are symmetrically distributed inside the cover plate 6. A gear 14 is meshed with one side of the toothed plate 13. A plug block 15 is provided at the end of the toothed plate 13 away from the gear 14, which is inserted into the plug rod 4. A return spring 16 is connected between the toothed plate 13 and the inside of the cover plate 6. A pull rod 17 is connected to the top of one of the toothed plates 13.

[0027] This high-precision electromechanical component connection structure has a sliding block between the toothed plate 13 and the cover plate 6, which makes the toothed plate 13 relatively stable when it moves.

[0028] exist Figure 4 and Figure 5 In the middle, a connecting rod 18 is provided at the top of the toothed plate 13, and a cleaning brush 19 is connected to one end of the connecting rod 18.

[0029] This high-precision electromechanical component connection structure uses a cleaning brush 19 made of polyethylene bristles, which are slightly longer than the filter screen 9, allowing them to extend into the interior of the filter screen 9 and preventing blockage during cleaning.

[0030] When high-precision electromechanical components are installed via a connection structure, firstly, the component body 3 can be installed inside the first mounting part 1. This allows the protective pad 5 inside the first mounting part 1 to protect the edges of the component body 3 and to position it, preventing displacement and internal collisions during installation. This provides good protection. Then, the cover plate 6 slides within the groove 8 at the top of the first mounting part 1, allowing the cover plate 6 to protect the top of the first mounting part 1. Finally, the first mounting part 1 and the second mounting part 2, which house the component body 3, can then be connected. The insertion rod 4 on one side of the second mounting component 2 is inserted into the pre-drilled slot, allowing the first mounting component 1 and the second mounting component 2 to connect. Simultaneously, as the insertion rod 4 moves, it pushes the insertion block 15. Because the insertion block 15 is trapezoidal, it can be compressed and moved, thus moving the connected toothed plate 13. The toothed plate 13, after moving, rotates the connected gear 14 and stretches the return spring 16. When the insertion rod 4 is fully inserted into the pre-drilled slot, the return spring 16 is released, allowing it to return to its original position. During this return, the toothed plate 13 and the insertion block 15 move, allowing the insertion rod to... The connecting block 15 can connect with the insertion hole inside the connecting rod 4, thereby locking the connecting block 15 and preventing it from loosening. At this time, the cover plate 6, the first mounting part 1, and the second mounting part 2 form a locking structure, thus preventing loosening after installation. When it is necessary to disassemble the cover plate 6, the pull rod 17 at the top can be pulled to one side, so that the pull rod 17 can move the connected toothed plate 13, and the toothed plate 13 can rotate the meshing gear 14, so that the gear 14 can move the other toothed plate 13 meshing on the other side, so that the two toothed plates 13 can move the connected connecting block 15 respectively, so that the connecting block 15 can engage with the connecting rod 4. Separation is performed, allowing the connector 4 to be unrestricted. Then, the cover 6 is pulled, allowing it to slide at the top of the first mounting component 1, enabling the component connection structure to be quickly removed. Simultaneously, the two toothed plates 13 move, moving the connecting rod 18, which in turn moves the cleaning brush 19. This allows the cleaning brush 19 to clean the surface of the filter screen 9, and the impurities adhering to the surface are swept into the pre-reserved groove 10. The impurities are then collected by the collection frame 11 inside the groove 10. The collection frame 11 can then be lifted upwards, allowing the magnetic block 12 at its bottom to separate from the cover 6.This design eliminates the risk of stripping bolts during disassembly of high-precision electromechanical component connections, and also allows for the cleaning of the filter screen 9 during the disassembly process.

[0031] In summary, the component connection structure in high-precision electromechanical components is the core guarantee for the reliable operation of the system. The precise fit between the male and female contacts, through elastic deformation, forms a low-resistance path, ensuring the stability and integrity of current and signal transmission. The electromechanical component body 3 is installed inside the first mounting part 1, and then the cover plate 6 is installed at the top of the first mounting part 1 via the slider 7. After installation, the pull rod 17 is pulled, allowing the two plug blocks 15 to be retracted into the cover plate 6. Finally, the first mounting part 1 and the second mounting part 2 are connected... The insertion rod 4 is inserted into the reserved slot. Then, by loosening the pull rod 17, the two insertion blocks 15 can be reset. Then, the inserted insertion rod 4 is locked. Thus, the connection structure of high-precision electromechanical components can avoid the need for bolt disassembly and assembly during use. Conversely, during disassembly, the toothed plate 13 can move the cleaning brush 19 to clean the filter screen 9, which not only facilitates disassembly and assembly but also provides a good cleaning effect. The contents not described in detail in this specification are prior art known to those skilled in the art.

[0032] Although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present invention should be included within the protection scope of the present invention.

Claims

1. A high-precision electromechanical component connection structure, comprising a first mounting component (1), a second mounting component (2), and an electromechanical component body (3), characterized in that: A second mounting component (2) is provided on one side of the first mounting component (1). The body (3) of an electromechanical component is installed inside the first mounting component (1). A plug-in rod (4) is provided on the side of the second mounting component (2) near the first mounting component (1). A protective pad (5) is provided inside the first mounting component (1). The protective pad (5) is symmetrically distributed inside the first mounting component (1). A cover plate (6) is provided at the top of the first mounting component (1). A slider (7) is provided at the bottom of the cover plate (6). The slider (7) is symmetrically distributed at the bottom of the cover plate (6). A groove (8) matching the slider (7) is opened inside the first mounting component (1). The groove (8) is symmetrically distributed at the top of the first mounting component (1).

2. The high-precision electromechanical component connection structure according to claim 1, characterized in that: The protective pad (5) is made of rubber, and the slider (7) is shaped like a "T".

3. The high-precision electromechanical component connection structure according to claim 1, characterized in that: The cover plate (6) is provided with a filter screen (9) inside. The filter screen (9) is symmetrically distributed inside the cover plate (6). A reserved groove (10) is provided on the side of the cover plate (6) near the filter screen (9).

4. The high-precision electromechanical component connection structure according to claim 3, characterized in that: The reserved slot (10) is provided with a matching collection frame (11), and a magnetic block (12) is provided at the bottom of the collection frame (11). The magnetic blocks (12) are symmetrically distributed at the bottom of the collection frame (11).

5. The high-precision electromechanical component connection structure according to claim 3, characterized in that: A toothed plate (13) is provided inside the cover plate (6) near the filter screen (9). The toothed plates (13) are symmetrically distributed inside the cover plate (6), and a gear (14) is meshed with one side of the toothed plate (13).

6. A high-precision electromechanical component connection structure according to claim 5, characterized in that: The toothed plate (13) is provided with a plug-in block (15) that is plugged into the plug-in rod (4) at one end away from the gear (14). The toothed plate (13) is connected to the cover plate (6) with a return spring (16). A pull rod (17) is connected to the top of one of the toothed plates (13).

7. A high-precision electromechanical component connection structure according to claim 6, characterized in that: A connecting rod (18) is provided at the top of the toothed plate (13), and a cleaning brush (19) is connected to one end of the connecting rod (18).