Magnetic linkage type multi-angle rotating mirror

By combining the magnetic linkage rotating component with the damping rotating shaft, the problem of insufficient flexibility and stability in angle adjustment of the mirror is solved, realizing multi-angle rotation and tilt adjustment of the mirror, improving the user experience and lifespan.

CN224330734UActive Publication Date: 2026-06-09FOSHAN BENCE TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
FOSHAN BENCE TECH CO LTD
Filing Date
2025-08-26
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Existing mirrors are insufficient in terms of angle adjustment flexibility and stability. Their mechanical connections are prone to wear and tear and are complex to assemble, making it difficult to meet users' needs in various scenarios.

Method used

It adopts a magnetic linkage structure, which realizes multi-angle rotation and pitch adjustment of the mirror body through the cooperation of the magnetic linkage rotating component and the damping rotating shaft, reducing the wear of mechanical parts and enhancing transmission stability.

Benefits of technology

It enables the mirror to rotate 360° horizontally and adjust flexibly in the vertical plane, extending its service life, improving ease of use and stability, and avoiding the defects of mechanical connections.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses a magnetically linked multi-angle rotating mirror, consisting of a detachable mirror body and a base. The mirror body includes a handle and an upper magnetic block at the bottom; the base has a through hole and receiving space, and houses a magnetically linked rotating assembly. The base has a groove at the top and a lower magnetic block that engages with the upper magnetic block. The handle is inserted into the groove at the bottom, achieving a stable magnetic connection. When the handle is rotated by external force, multi-angle rotation is achieved through the groove, magnetic assistance, and the magnetically linked rotating assembly: 360° horizontal rotation and vertical tilt adjustment, with a damping shaft ensuring angle stability. The base is equipped with a counterweight ring and anti-slip silicone to enhance stability. The magnetic drive reduces wear and offers advantages such as flexible adjustment and long service life.
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Description

Technical Field

[0001] This utility model relates to the field of rotating mirror technology, specifically to a magnetically linked multi-angle rotating mirror. Background Technology

[0002] Mirrors are indispensable household items, widely used in homes, hotels, bathrooms, and other settings. Currently, there are many types of mirrors on the market, which can be categorized into fixed and rotating types based on their installation method. Fixed mirrors cannot be adjusted, which limits their use and makes it difficult to meet users' needs in different scenarios.

[0003] While rotatable mirrors solve the angle adjustment problem to some extent, traditional rotatable mirrors mostly use mechanical connections to achieve rotation, such as pins, gears, and other components. This connection method has some drawbacks. For example, mechanically connected components are prone to wear, which can lead to jamming or loosening after long-term use, affecting the user experience. In addition, the mechanical connection structure is complex and difficult to assemble.

[0004] In addition, existing rotatable mirrors are also lacking in flexibility and stability in angle adjustment. They can only rotate in one direction or are difficult to stay at the desired angle during adjustment, causing a lot of inconvenience to users.

[0005] Therefore, developing a multi-angle rotating mirror with a simple structure, flexible rotation, and good stability is of great practical significance. Utility Model Content

[0006] To achieve the above objectives, the present invention adopts the following technical solution: a magnetically attached multi-angle rotating mirror, comprising a mirror body and a base, wherein the mirror body is rotatably mounted on the base, the mirror body includes a handle, and an upper magnetic block is provided at the bottom of the handle; the base has a through hole and a receiving space communicating with the through hole, and a magnetically attached rotating assembly that can be passively rotated is provided in the receiving space, the top of the magnetically attached rotating assembly is provided with a groove, and the magnetically attached rotating assembly is also provided with a lower magnetic block that cooperates with the upper magnetic block, and the lower magnetic block is located below the groove; the bottom of the handle can be inserted into the groove, and when the handle rotates under the action of external force, the mirror can be rotated at multiple angles through the cooperation of the groove, magnetic assistance, and the magnetically attached rotating assembly.

[0007] Preferably, the bottom end of the handle is provided with an end cap, and the bottom of the handle is provided with a receiving cavity for accommodating the upper magnetic block, which is disposed in the receiving cavity.

[0008] Preferably, the magnetic linkage rotation assembly includes a rotating base, a lower magnetic block, and a damping shaft. The damping shaft has connecting ears at both ends for connecting to the base, and insertion holes on both the left and right sides of the shaft. The rotating base has the groove on its top, and symmetrically arranged insertion posts on its lower surface. The insertion posts are adapted to the insertion holes and inserted into the insertion holes. The lower surface of the rotating base also has several circumferentially distributed clamping blocks. The lower magnetic block is clamped in the area enclosed by the clamping blocks. By rotating the damping shaft, the vertical pitch movement of the mirror body can be achieved.

[0009] Preferably, the base includes an upper base cover and a lower base cover. The upper base cover is in the shape of a boss and fits onto the lower base cover. The top of the upper base cover has a through hole for the bottom of the handle to pass through. The top of the rotating seat of the magnetic linkage rotating assembly is located directly below the through hole.

[0010] Preferably, two sets of mounting posts are provided on both sides of the through hole on the bottom surface of the base cover, corresponding to the position of the damping shaft connecting lug. The mounting posts have mounting holes at the bottom, and the connecting lug of the damping shaft is fixed to the mounting post by bolts passing through the mounting holes.

[0011] Preferably, the clamping block is made of plastic, with a bending stop at the lower end. The area enclosed by the upper end of the clamping block is larger than the area enclosed by the lower end, and the lower magnetic block enters the enclosed area from the lower end of the clamping block.

[0012] Preferably, it also includes a counterweight ring, which is adhered to the upper surface of the base cover.

[0013] Preferably, the bottom of the base cover is provided with anti-slip silicone.

[0014] This utility model has the following beneficial effects:

[0015] 1. Flexible multi-angle adjustment: Through the cooperation of the magnetic linkage rotating component and the damping rotating shaft, the mirror can rotate 360° in the horizontal direction and adjust the pitch angle in the vertical plane, which meets the user's needs in different scenarios and improves the convenience of use.

[0016] 2. Long service life: The magnetic drive reduces wear between mechanical parts, and the reliable fixing of each part avoids damage caused by loosening or falling off, thus extending the service life of the mirror. Attached Figure Description

[0017] Figure 1 This is a schematic diagram showing the combined state of the mirror body and the base of this utility model;

[0018] Figure 2 This is an exploded view of the present invention from a top perspective;

[0019] Figure 3 This is an exploded view of the present invention from a bottom-view perspective.

[0020] Figure 4 A schematic diagram of the structure of the rotating seat provided by this utility model;

[0021] Figure 5 This is a schematic diagram showing the mirror body and base of this utility model in a separated state;

[0022] Legend: 1. Mirror body; 2. Handle; 21. End cap; 22. Upper magnet; 3. Base upper cover; 31. Damping pivot mounting post; 32. Through hole; 4. Base lower cover; 41. Base counterweight ring; 5. Anti-slip silicone pad; 61. Rotating seat; 610. Insert block; 611. Insert post; 612. Clamping piece; 6121. Bending stop; 613. Groove; 62. Lower magnet; 63. Damping pivot; 631. Connecting ear; 632. Insertion hole. Detailed Implementation

[0023] The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention.

[0024] Reference Figure 1-5 The embodiments provided by this utility model are as follows:

[0025] A magnetically linked multi-angle rotating mirror includes a mirror body 1 and a base. The mirror body 1 is rotatably mounted on the base. The mirror body 1 includes a handle 2, and the bottom of the handle 2 is provided with an upper magnetic block 22. The base has a through hole 32 and a receiving space communicating with the through hole 32. A magnetically linked rotating assembly that can be passively rotated is provided in the receiving space. The top of the magnetically linked rotating assembly is provided with a groove 613. A lower magnetic block 62 that cooperates with the upper magnetic block 22 is provided on the magnetically linked rotating assembly. The lower magnetic block 62 is located below the groove 613. The upper magnetic block 22 and the lower magnetic block 62 are magnetically attracted and their positions correspond to each other. The bottom of the handle 2 can be inserted into the groove 613. When the handle 2 is rotated under the action of external force, the mirror can be rotated at multiple angles through the cooperation of the groove, the magnetic assistance, and the magnetically linked rotating assembly. The upper magnetic block 22 and the lower magnetic block 62 have opposite magnetic poles facing each other and are coaxially distributed. This structure replaces traditional mechanical connections with magnetic drive, reducing component wear, extending service life, and ensuring transmission stability and ease of operation.

[0026] The bottom end of the handle 2 is provided with an end cap 21, and the bottom of the handle 2 is provided with a receiving cavity for accommodating the upper magnetic block 22, which is located in the receiving cavity.

[0027] The base includes an upper base cover 3 and a lower base cover 4. The upper base cover 3 is shaped like a boss and is fastened to the lower base cover 4. The top of the upper base cover 3 has a through hole 32 for the bottom of the handle 2 to pass through. The through hole 32 is adapted to the bottom of the handle 2 to ensure that the handle 2 has enough space to rotate without shifting. The adaptation design between the through hole 32 and the handle 2 ensures smooth rotation and avoids shaking or jamming.

[0028] The magnetic linkage rotation component includes a rotating base 61, a lower magnet 62, and a damping shaft 63. The damping shaft 63 enables the mirror to stay stably within the adjustment angle. The setting of the damping shaft 63 is also the key to realizing multi-angle adjustment, ensuring that the mirror will not shift due to slight external force or its own weight during use, greatly improving the user experience.

[0029] The damping shaft 63 has connecting ears 631 at both ends for connecting to the base cover 3, and insertion holes 632 on each of its left and right sides. The rotating seat 61 is located directly below the through hole 32, with a groove 613 on its top and symmetrically arranged insertion blocks 610 on its lower surface. The insertion blocks 610 have notches at the bottom, and insertion posts 611 are connected to the middle of the top of the notches. The notches are inserted into the damping shaft 63 at the insertion hole positions. The insertion posts 611 are adapted to the insertion holes 632 and inserted into the insertion holes 632. The rotating seat is connected to the damping shaft through the insertion blocks and insertion posts to ensure stable rotation. The lower surface of the rotating seat 61 also has several circumferentially distributed clamping pieces 612, and the lower magnetic block 62 is clamped in the area enclosed by the clamping pieces 612. The bottom surface of the base cover 3 has two sets of damping shaft mounting posts 31. The bottom of the damping shaft mounting posts 31 has mounting holes, and the connecting ears 631 of the damping shaft 63 are installed on the damping shaft mounting posts 31 by bolts. The matching design of the insert 611 and the socket 632 ensures the synchronous movement of the rotating seat 61 and the damping shaft 63, while the bolt-fixed connecting lug 631 enhances the stability of the damping shaft 63 installation and provides reliable support for angle adjustment.

[0030] The clamping piece 612 is made of plastic, with a bending stop 6121 at its lower end. The area enclosed by the upper end of the clamping piece 612 is larger than the area enclosed by the lower end. The lower magnetic block 62 enters the enclosed area from the lower end of the clamping piece 612 and is limited by the bending stop 6121. The axis of the lower magnetic block 62 coincides with the axis of the rotating seat 61. The plastic clamping piece 612 combines elasticity and toughness, facilitating the installation and fixation of the lower magnetic block 62. The limiting function of the bending stop 6121 prevents the lower magnetic block 62 from falling off during rotation, ensuring the stability of the magnetic drive.

[0031] It also includes a base counterweight ring 41, which is attached to the upper surface of the base cover 4. Its axis coincides with the axis of the base, thus balancing the center of gravity. The base counterweight ring 41 lowers the center of gravity of the entire mirror, effectively preventing it from tipping over due to the rotation of the handle 2 or angle adjustment, and enhancing the stability of the placement.

[0032] The bottom of the base cover 4 is equipped with an anti-slip silicone pad 5. The anti-slip silicone pad 5 is made of multiple pieces and is glued to the bottom surface of the base cover 4 in a circumferential manner to enhance the anti-slip effect.

[0033] The working principle of this magnetic linkage multi-angle rotating mirror is as follows: The mirror body 1 and the base are detachable. The mirror body 1 can be used alone or in conjunction with the base. When the mirror body 1 is used with the base, the handle 2 is inserted into the groove 613. Due to the magnetic attraction between the upper magnetic block 22 and the lower magnetic block 62, the mirror body 1 is easily inserted into the groove 613 and stably engaged. At this time, when it is necessary to rotate the mirror horizontally, external force is applied to rotate the handle 2, and the mirror body 1 can achieve a 360° horizontal rotation. When it is necessary to adjust the pitch angle, the handle 2 is pulled up or down. Due to the magnetic attraction between the upper magnetic block 22 and the lower magnetic block 62, the rotating seat 61 is driven to rotate around the horizontal axis of the damping shaft 63, causing the mirror body 1 to adjust the angle in the vertical plane. After adjustment, the damping force of the damping shaft 63 keeps the mirror stably stationary at the desired angle. When the mirror body 1 needs to be used alone, simply use external force to pull the mirror body 1 out of the groove 613.

[0034] Finally, it should be noted that the above are merely preferred embodiments of the present utility model and are not intended to limit the present utility model. Although the present utility model 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 utility model should be included within the protection scope of the present utility model.

Claims

1. A magnetically attached, multi-angle rotating mirror, comprising a mirror body and a base, wherein the mirror body is rotatably mounted on the base, characterized in that: The mirror body includes a handle, and an upper magnet is provided at the bottom of the handle. The base has a through hole and a receiving space communicating with the through hole. A magnetically attracted rotating assembly is provided in the receiving space. The magnetically attracted rotating assembly has a groove at the top and a lower magnet that cooperates with the upper magnet. The lower magnet is located below the groove. The bottom of the handle can be inserted into the groove. When the handle is rotated under the action of external force, the mirror can be rotated at multiple angles through the cooperation of the groove, magnetic assistance, and the magnetically attracted rotating assembly.

2. The magnetically attached multi-angle rotating mirror according to claim 1, characterized in that: The bottom end of the handle is provided with an end cap, and the bottom of the handle is provided with a receiving cavity for accommodating the upper magnetic block, and the upper magnetic block is disposed in the receiving cavity.

3. The magnetically attached multi-angle rotating mirror according to claim 1, characterized in that: The magnetic linkage rotation assembly includes a rotating base, a lower magnetic block, and a damping shaft. The damping shaft has connecting ears at both ends for connecting to the base, and insertion holes on both the left and right sides of the shaft. The rotating base has a groove on its top and symmetrically arranged insertion posts on its lower surface. The insertion posts are adapted to the insertion holes and inserted into them. The lower surface of the rotating base also has several circumferentially distributed clamping blocks. The lower magnetic block is clamped within the area enclosed by the clamping blocks. By rotating the damping shaft, the vertical pitch movement of the mirror body can be achieved.

4. A magnetically attached multi-angle rotating mirror according to claim 3, characterized in that: The base includes an upper base cover and a lower base cover. The upper base cover is in the shape of a boss and fits onto the lower base cover. The top of the upper base cover has a through hole for the bottom of the handle to pass through. The top of the rotating seat of the magnetic linkage rotating assembly is located directly below the through hole.

5. A magnetically attached multi-angle rotating mirror according to claim 4, characterized in that: Two sets of mounting posts are provided on both sides of the through hole on the bottom surface of the base cover, corresponding to the position of the damping shaft connecting lug. The mounting posts have mounting holes at the bottom, and the damping shaft connecting lug is fixed to the mounting post by bolts passing through the mounting holes.

6. A magnetically attached multi-angle rotating mirror according to claim 3, characterized in that: The clamping block is made of plastic and has a bending stop at the lower end. The area enclosed by the upper end of the clamping block is larger than the area enclosed by the lower end. The lower magnetic block enters the enclosed area from the lower end of the clamping block.

7. A magnetically attached multi-angle rotating mirror according to claim 1, characterized in that: It also includes a counterweight ring, which is disposed on the upper surface of the lower cover of the base.

8. A magnetically attached multi-angle rotating mirror according to claim 1, characterized in that: The bottom of the base cover is equipped with anti-slip silicone.