A magnetic convenient installation structure suitable for a gimbal

Abstract

The utility model discloses a kind of magnetic attraction type convenient installation structure suitable for gimbal, comprising: magnetic attraction bottom plate, rotating frame, rotating ball and threaded rod, rotating frame is rotatably installed in the upper surface center of magnetic attraction bottom plate, rotating ball is placed in rotating frame interior, threaded rod is fixed in the upper surface center of rotating ball;Connecting assembly, connecting assembly includes adjusting plate, square groove, mounting bracket and slot, the center of adjusting plate is provided with threaded hole, and is screw-mounted on the outer surface of threaded rod, square groove is set in the upper surface of adjusting plate Two sides square groove interior insert mounting bracket, mounting bracket is U-shaped, slot is set in the two sides of sub mounting bracket, and mounting hole is set in the two sides of square groove interior.The utility model only needs to be opened to two sides and unlock plate, can quickly unlock mounting bracket, without rotating or tightening, significantly improve the replacement efficiency, reduce threaded wear problem through the linkage mechanism of spring and clamping column, significantly prolong the service life of gimbal.

Description

Technical Field

[0001] This utility model relates to the field of magnetic gimbal technology, specifically a magnetically attached convenient installation structure suitable for gimbals. Background Technology

[0002] The magnetic design of a gimbal is a device that uses magnetic force to achieve quick fixation and positioning, and is usually used to support or connect gimbal systems for cameras and mobile phones.

[0003] Some magnetic gimbals require different adjustment plates to be installed into the threaded rod when installing different equipment. Each time the equipment is changed, the corresponding adjustment plate needs to be screwed in and out of the threaded rod.

[0004] In scenarios where equipment needs to be changed frequently, this operation will significantly reduce efficiency and affect work progress. Long-term and frequent rotation of the mounting bracket will cause wear on the threads of the threaded rod and the mounting bracket, which will affect the tightness and stability of the connection. Therefore, it is necessary to provide a gimbal that can quickly replace the adjustment plate to improve the efficiency of replacement. Utility Model Content

[0005] The purpose of this utility model is to provide a magnetic, convenient installation structure suitable for gimbals, thereby solving the problems mentioned in the background section. To solve the above technical problems, this utility model is achieved through the following technical solution:

[0006] This utility model relates to a magnetic, convenient installation structure suitable for gimbals, comprising:

[0007] The magnetic base plate, rotating frame, rotating ball, and threaded rod are provided. The rotating frame is rotatably mounted on the center of the upper surface of the magnetic base plate, the rotating ball is placed inside the rotating frame, and the threaded rod is fixed to the center of the upper surface of the rotating ball.

[0008] The connecting assembly includes an adjusting plate, a square groove, a mounting bracket, and a slot. The adjusting plate has a threaded hole in its center and is threaded onto the outer surface of a threaded rod. The square groove is located on both sides of the upper surface of the adjusting plate. The mounting bracket is inserted into the square groove. The mounting bracket is U-shaped. The slot has openings on both sides of the mounting bracket.

[0009] Furthermore, an adjusting rod is threaded through one side of the rotating frame, and one end of the adjusting rod is in contact with the outer surface of the rotating ball.

[0010] Furthermore, mounting holes are provided on both sides of the interior of the square groove, and unlocking slots are provided on both sides of the upper surface of the adjustment plate, with the unlocking slots communicating with the mounting holes.

[0011] Furthermore, a spring is fixed inside the mounting hole, an unlocking plate is fixed on the outer surface of the spring, and the unlocking plate passes through the unlocking groove. A locking pin is fixed at one end of the spring.

[0012] Furthermore, the end of the locking pin extends into the slot, and a locking block is fixed on the upper surface of the mounting bracket.

[0013] Furthermore, it also includes an installation component, which includes an installation slot, a first universal hinge, a first movable plate, and a rotating slot. The installation slot is located on both sides of the magnetic base plate. There are two first universal hinges, which are installed in their respective installation slots. The first movable plate rotates through the outer surface of the first universal hinge. The rotating slot is located at the lower end of the first movable plate.

[0014] Furthermore, a second universal hinge is rotatably installed inside the rotating slot, and a second movable plate is rotatably passed through the outer surface of the second universal hinge. A magnetic block is embedded in the inner wall of the second movable plate.

[0015] This utility model has the following beneficial effects:

[0016] This utility model, comprising a magnetic base plate, rotating frame, adjusting rod, rotating ball, threaded rod, and connecting assembly, eliminates the need to replace the adjusting plate when installing different devices. Simply pry the unlocking plate open to both sides, causing the unlocking plate to compress the spring within the mounting hole. Simultaneously, the spring moves the locking pin into the mounting hole, at which point the locking pin retracts from the slot, allowing the mounting bracket to be pulled out of the square slot. Then, to replace the mounting bracket for other devices, the lower end of the new mounting bracket is inserted into the square slot. When the slot aligns with the mounting hole, the spring quickly returns to its original shape, causing the locking pin to engage with the corresponding slot, thus installing the mounting bracket into the adjusting plate. No repeated rotation is required; simply prying the unlocking plate open to both sides quickly unlocks the mounting bracket without rotation or tightening, significantly improving replacement efficiency. The linkage mechanism between the spring and the locking pin reduces thread wear and significantly extends the lifespan of the gimbal. Attached Figure Description

[0017] To more clearly illustrate the technical solutions of the embodiments of this utility model, the accompanying drawings used in the description of the embodiments 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 these drawings without creative effort.

[0018] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0019] Figure 2 This is a cross-sectional view of the connecting component structure of this utility model;

[0020] Figure 3 This is an exploded view of the connecting component structure of this utility model;

[0021] Figure 4 This is a schematic diagram of the installation components of this utility model.

[0022] The attached diagram lists the components represented by each number as follows:

[0023] 11. Magnetic base plate; 12. Rotating frame; 13. Adjusting rod; 14. Rotating ball; 15. Threaded rod;

[0024] 21. Adjustment plate; 22. Square slot; 23. Mounting hole; 231. Unlocking slot; 24. Spring; 241. Unlocking plate; 25. Locking post; 26. Mounting bracket; 27. Locking slot; 28. Locking block;

[0025] 31. Mounting slot; 32. First universal hinge; 33. First movable plate; 331. Rotating slot; 34. Second universal hinge; 35. Second movable plate; 36. Magnetic block. Detailed Implementation

[0026] 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.

[0027] To make the objectives, technical solutions, and advantages of this utility model clearer, the embodiments of this utility model will be described in further detail below with reference to the accompanying drawings.

[0028] Please see Figure 1-4 As shown, this utility model is a magnetic easy-to-install structure suitable for gimbals, comprising:

[0029] The magnetic base plate 11, rotating frame 12, rotating ball 14 and threaded rod 15 are arranged in a magnetic base plate 11. The rotating frame 12 is rotatably mounted on the magnetic base plate 11 to the center of the upper surface. The rotating ball 14 is placed inside the rotating frame 12. The threaded rod 15 is fixed to the center of the upper surface of the rotating ball 14. An adjusting rod 13 is threaded through one side of the rotating frame 12, and one end of the adjusting rod 13 is in contact with the outer surface of the rotating ball 14.

[0030] The magnetic base plate 11 is the basic support part of the entire gimbal. It is usually fixed to the outside by magnetic force. The rotating frame 12 is installed in the center of the magnetic base plate 11, allowing the gimbal to rotate freely in the horizontal direction. The rotating ball 14 is the core component of the gimbal, allowing the device to be tilted and fixed at any angle. By rotating the adjustment rod 13, the tilt angle of the rotating ball 14 can be controlled, thereby adjusting the overall tilt of the gimbal.

[0031] The connecting assembly includes an adjusting plate 21, a square groove 22, a mounting bracket 26, and a slot 27. The adjusting plate 21 has a threaded hole in the center and is threaded onto the outer surface of the threaded rod 15. The square groove 22 is opened on both sides of the upper surface of the adjusting plate 21. The mounting bracket 26 is inserted inside the square groove 22. The mounting bracket 26 is U-shaped. The slot 27 is opened on both sides of the mounting bracket 26.

[0032] The mounting bracket 26 is fixed to the threaded rod 15 via the threaded hole of the adjusting plate 21, and simultaneously connected to the mounting bracket 26 via the square slot 22 and the retaining groove 27, thus enabling the mounting bracket 26 to be fixed and quickly replaced. The square slot 22 is used to insert the mounting bracket 26, which is inserted into the square slot 22 by a U-shaped design, and is fixed by engaging with the retaining post 25 via the retaining groove 27. When the mounting bracket 26 is inserted into the square slot 22, the retaining post 25 engages with the retaining groove 27, fixing the mounting bracket 26 to the adjusting plate 21.

[0033] The square groove 22 has mounting holes 23 on both sides inside. The upper surface of the adjustment plate 21 has unlocking grooves 231 on both sides, and the unlocking grooves 231 and the mounting holes 23 are interconnected. A spring 24 is fixed inside the mounting hole 23. An unlocking plate 241 is fixed on the outer surface of the spring 24, and the unlocking plate 241 passes through the unlocking groove 231. A locking post 25 is fixed at one end of the spring 24, and the end of the locking post 25 extends into the slot 27. A locking block 28 is fixed on the upper surface of the mounting bracket 26.

[0034] Mounting hole 23 is used to install spring 24 and locking post 25. Unlocking groove 231 is through mounting hole 23. It is used to accommodate unlocking plate 241, and the operation of unlocking plate 241 realizes the unlocking of mounting bracket 26. The elastic force of spring 24 is used to push locking post 25 to reset, realizing automatic locking of mounting bracket 26. When the user pries unlocking plate 241 open to both sides, unlocking plate 241 will compress spring 24, driving locking post 25 to move into mounting hole 23, thereby releasing the locked state of mounting bracket 26. Under the elastic force of spring 24, locking post 25 extends into locking groove 27. Locking post 25 is used to fix mounting bracket 26 and prevent it from falling out of square groove 22.

[0035] Working principle:

[0036] When installing different devices, there is no need to replace the adjustment plate 21. Simply pry the unlocking plate 241 open to both sides. The unlocking plate 241 drives the spring 24 to compress into the mounting hole 23. The spring 24 simultaneously drives the locking post 25 to move into the mounting hole 23. At this time, the locking post 25 exits from the slot 27, and the mounting bracket 26 can be pulled out from the square slot 22. Then, replace the mounting bracket 26 of other devices. Insert the lower end of the new mounting bracket 26 into the square slot 22. When the slot 27 is aligned with the mounting hole 23, the spring 24 will quickly return to its original shape. This will cause the locking post 25 to lock into the corresponding slot 27, and the mounting bracket 26 can be installed into the adjustment plate 21 without repeated rotation.

[0037] This step simply involves prying open the unlocking plates 241 on both sides to quickly unlock the mounting bracket 26 without rotating or tightening, significantly improving replacement efficiency. The linkage mechanism between the spring 24 and the locking post 25 reduces thread wear and significantly extends the service life of the gimbal.

[0038] Please see Figure 1-4 As shown, this embodiment, based on the above embodiment, further includes:

[0039] The mounting assembly includes a mounting slot 31, a first universal hinge 32, a first movable plate 33, and a rotating slot 331. The mounting slot 31 is located on both sides of the magnetic base plate 11. There are two first universal hinges 32, which are installed in the corresponding mounting slots 31. The first movable plate 33 rotates through the outer surface of the first universal hinge 32. The rotating slot 331 is located at the lower end of the first movable plate 33. A second universal hinge 34 is rotatably mounted inside the rotating slot 331. A second movable plate 35 rotates through the outer surface of the second universal hinge 34. A magnetic block 36 is embedded in the inner wall of the second movable plate 35.

[0040] Mounting slot 31 is used to install the first universal hinge 32. The first universal hinge 32 and the second universal hinge 34 are designed with special dampers to allow the first movable plate 33 and the second movable plate 35 to be fixed at any angle, so that the movable plate can flexibly adapt to the curvature of the cylindrical support. Rotation slot 331 is used to install the second universal hinge 34. Magnetic block 36 is used to be attracted to the outer surface of the cylindrical support to enhance the fixation force of the gimbal.

[0041] Working principle:

[0042] When the magnetic base plate 11 is attached to the cylindrical support rod, but the outer surface of the cylindrical support rod is curved, the magnetic base plate 11 is not easy to fix. By rotating the first movable plate 33 and the second movable plate 35, the first universal hinge 32 and the second universal hinge 34 can be fixed at any angle through a special damper, so that the first movable plate 33 and the second movable plate 35 surround the outer surface of the cylindrical support rod, and are attached to the outer surface of the cylindrical support rod by the magnetic block 36, thereby increasing the magnetic area.

[0043] This step, through the surrounding design of the first movable plate 33 and the second movable plate 35, can closely fit the curved surface of the cylindrical support rod, ensuring that the magnetic base plate 11 is stably fixed.

[0044] The preferred embodiments of this utility model disclosed above are merely illustrative of the present utility model. These preferred embodiments do not exhaustively describe all details, nor do they limit the utility model to the specific implementations described. Clearly, many modifications and variations can be made based on the content of this specification. This specification selects and specifically describes these embodiments to better explain the principles and practical applications of this utility model, thereby enabling those skilled in the art to better understand and utilize it. This utility model is limited only by the claims and their full scope and equivalents.

Claims

1. A magnetic, convenient installation structure suitable for gimbals, characterized in that, include: The magnetic base plate (11), rotating frame (12), rotating ball (14) and threaded rod (15) are provided. The rotating frame (12) is rotatably mounted on the magnetic base plate (11) to obtain the center of the upper surface. The rotating ball (14) is placed inside the rotating frame (12). The threaded rod (15) is fixed at the center of the upper surface of the rotating ball (14). The connecting assembly includes an adjusting plate (21), a square groove (22), a mounting bracket (26), and a slot (27). The adjusting plate (21) has a threaded hole in the center and is threaded onto the outer surface of the threaded rod (15). The square groove (22) is opened on both sides of the upper surface of the adjusting plate (21). The mounting bracket (26) is inserted inside the square groove (22). The mounting bracket (26) is U-shaped. The slot (27) has two sides of the mounting bracket (26).

2. The magnetic convenient installation structure for a gimbal according to claim 1, characterized in that: One side of the rotating frame (12) is threaded with an adjusting rod (13), and one end of the adjusting rod (13) is in contact with the outer surface of the rotating ball (14).

3. The magnetic convenient installation structure for a gimbal according to claim 1, characterized in that: The square groove (22) has mounting holes (23) on both sides inside, and the upper surface of the adjustment plate (21) has unlocking grooves (231) on both sides, and the unlocking grooves (231) and the mounting holes (23) are interconnected.

4. The magnetic convenient installation structure for a gimbal according to claim 3, characterized in that: A spring (24) is fixed inside the mounting hole (23), and an unlocking plate (241) is fixed on the outer surface of the spring (24). The unlocking plate (241) passes through the unlocking groove (231), and a locking pin (25) is fixed at one end of the spring (24).

5. A magnetic convenient installation structure for a gimbal according to claim 4, characterized in that: The end of the locking post (25) extends into the slot (27), and the upper surface of the mounting bracket (26) is fixed with a locking block (28).

6. The magnetic convenient installation structure for a gimbal according to claim 1, characterized in that: It also includes an installation component, which includes an installation slot (31), a first universal hinge (32), a first movable plate (33), and a rotating slot (331). The installation slot (31) is opened on both sides of the magnetic base plate (11). There are two first universal hinges (32), which are respectively installed in the corresponding installation slots (31). The first movable plate (33) rotates through the outer surface of the first universal hinge (32). The rotating slot (331) is opened at the lower end of the first movable plate (33).

7. A magnetic convenient installation structure for a gimbal according to claim 6, characterized in that: The rotating groove (331) is rotatably mounted with a second universal hinge (34), and the outer surface of the second universal hinge (34) is rotatably penetrated by a second movable plate (35), and a magnetic block (36) is embedded in the inner wall of the second movable plate (35).

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