A magnetic ring holder

The magnetic finger ring holder design solves the finger pain problem caused by a single finger passing through the ring in existing technologies, enabling multi-finger grip, distributing load, improving comfort and stability, and enriching the functionality.

CN224439054UActive Publication Date: 2026-06-30聂泽阳

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
聂泽阳
Filing Date
2025-06-28
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Existing mobile phone ring holders only allow one finger to pass through, which causes finger pain after prolonged use and fails to effectively reduce finger burden.

Method used

Design a magnetic finger ring holder, including a magnetic base, an irregularly shaped finger ring, and a finger plate. The irregularly shaped finger ring allows at least two fingers to pass through, and the finger plate can be unfolded to form a support surface. The hinge structure facilitates rotation, unfolding, or folding, making it suitable for different usage scenarios.

Benefits of technology

Improves grip stability and comfort, reduces pressure on individual fingers, avoids stress concentration on the little finger, reduces space occupation, and facilitates carrying and switching between usage modes.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the technical field of mobile phone holders, and more particularly to a magnetic finger ring holder, including a magnetic base, an irregularly shaped finger ring, and a finger plate. The magnetic base has a built-in first magnet, which can be magnetically connected to a mobile phone or mobile phone case. The irregularly shaped finger ring is hinged to the surface of the magnetic base, allowing at least two fingers to pass through. It can be rotated and unfolded or folded to help distribute the load when holding the phone, improving comfort and stability. The finger plate is hinged to the surface of the magnetic base, forming a support surface when unfolded, allowing the fingers to support the phone and preventing stress concentration in the little finger, which can lead to pain and deformation. Furthermore, this utility model also achieves folding and storage of the irregularly shaped finger ring and finger plate through the hinge structure, reducing space occupation. When unfolded, it can be used as a mobile phone holder, offering rich functionality and convenient switching. It effectively solves the problems of insufficient grip comfort and stress concentration in existing products, significantly reducing finger discomfort during prolonged mobile phone use, and combining practicality and portability.
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Description

Technical Field

[0001] This utility model relates to the technical field of mobile phone holders, and in particular to a magnetic ring holder. Background Technology

[0002] With the continuous development of technology, smartphones have become an indispensable device in people's daily work and life. However, when using a mobile phone, in order to prevent it from falling, users usually use their little finger to support the bottom edge of the phone for auxiliary support. Over time, this can easily lead to calluses or even deformation of the little finger, putting a lot of strain on the finger.

[0003] Therefore, to reduce the burden on the little finger, some finger ring holders have emerged to facilitate the grip and placement of mobile phones. These ring holders can be attached to the back of the phone and allow fingers to pass through to assist in holding the phone and prevent it from falling. However, these finger ring holders usually only support one finger, concentrating the force on a single finger during use. This results in significant finger pain even after prolonged use, merely transferring the pain from the little finger to other fingers, without fundamentally alleviating the problem of excessive finger strain.

[0004] Therefore, there is an urgent need for a product that can alleviate the discomfort in the fingers caused by prolonged use of mobile phones. Utility Model Content

[0005] To address the problems mentioned above, this invention provides a magnetic finger ring holder that can significantly reduce finger discomfort during prolonged mobile phone use and improve grip comfort and safety.

[0006] The solution adopted by this utility model to solve its technical problem is: a magnetic finger ring holder, comprising:

[0007] The magnetic base has a built-in first magnet for magnetically connecting to a mobile phone or phone case.

[0008] An irregularly shaped ring, hinged to the surface of the magnetic base and rotatable relative to the surface of the magnetic base to unfold or fold, the irregularly shaped ring allowing at least two fingers to pass through;

[0009] The finger plate is hinged to the surface of the magnetic base and can rotate relative to the surface of the magnetic base to unfold or fold, so as to form a support surface for the fingers when unfolded.

[0010] Furthermore, the magnetic base includes a magnetic outer ring and a connecting base plate rotatably mounted at the center of the magnetic outer ring, with the irregularly shaped finger ring and the finger plate respectively placed on both sides of the surface of the connecting base plate.

[0011] Furthermore, the bottom of the magnetic outer ring is provided with an annular mounting groove, and the first magnet is disposed in the annular mounting groove.

[0012] Furthermore, two hinges are arranged opposite each other on the surface of the connecting base plate. The edges of the irregular finger ring and the finger plate that are far apart from each other are respectively connected to one of the hinges. The edges of the irregular finger ring and the finger plate that are close to each other are provided with opening notches.

[0013] Furthermore, the irregularly shaped ring has a round-rectangular structure with an inner diameter adapted to allow two fingers to pass through.

[0014] Furthermore, the outer dimensions of the finger plate are smaller than or equal to the inner ring dimensions of the irregular finger ring, so that it can be embedded inside the irregular finger ring when folded.

[0015] Furthermore, the surface of the finger plate is covered with a silicone soft layer.

[0016] Furthermore, the finger plate has a concave support portion formed on its surface for supporting the fingers.

[0017] Furthermore, the finger plate has a built-in second magnet for adsorbing and connecting with a magnetic surface or an iron surface.

[0018] In summary, the beneficial effects of this utility model are as follows:

[0019] 1. This utility model provides an irregularly shaped finger ring on the surface of the magnetic base that allows at least two fingers to pass through. This allows the user to pass two fingers through the ring for an auxiliary grip, which improves grip stability and distributes the load-bearing force to the two fingers, thereby reducing the pressure that a single finger needs to bear and improving grip comfort and safety.

[0020] 2. This utility model provides a finger plate on the surface of the magnetic base, allowing users to place their fingers under the finger plate when using the phone for extended periods. The finger plate supports the phone, effectively preventing stress concentration on the little finger, which can cause pain or deformation. This significantly reduces finger discomfort during prolonged phone use and improves grip comfort.

[0021] 3. This utility model hinges the irregularly shaped ring and the finger plate to the surface of the magnetic base, allowing both the irregularly shaped ring and the finger plate to rotate relative to the surface of the magnetic base for unfolding or folding. This allows users to fold both when storing and carrying the device to reduce space occupation, and to unfold them to support the phone. It is feature-rich and easy to switch between functions.

[0022] The above description is merely an overview of the technical solution of this utility model. In order to better understand the technical means of this utility model and to implement it in accordance with the contents of the specification, and to make the above and other objects, features and advantages of this utility model more apparent and understandable, preferred embodiments are described below in detail with reference to the accompanying drawings. Attached Figure Description

[0023] Figure 1 This is a schematic diagram of the structure when unfolded according to this embodiment;

[0024] Figure 2 This is a schematic diagram of the structure when folded in this embodiment;

[0025] Figure 3 This is an exploded view of this embodiment;

[0026] Figure 4 This is an exploded view from another angle of this embodiment;

[0027] Figure 5 This is a cross-sectional view of this embodiment;

[0028] Figure 6 for Figure 5 Enlarged view of point A in the middle.

[0029] In the diagram: 1. Magnetic base; 11. Magnetic outer ring; 111. Annular mounting groove; 112. Connecting step; 12. Connecting base plate; 2. Irregular finger ring; 3. Finger plate; 31. Support part; 4. First magnet; 5. Hinge; 6. Opening notch; 7. Second magnet; 8. Back plate. Detailed Implementation

[0030] To make the content of this utility model easier to understand, the present utility model will be further described below with reference to specific embodiments and accompanying drawings.

[0031] It should be noted that the terms "center," "upper," "lower," "front," "rear," "left," "right," "inner," and "outer" used herein to indicate the orientation or positional relationship are based on the orientation or positional relationship shown in the accompanying drawings, and are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation of this utility model. Unless otherwise stated, "a plurality of" means two or more.

[0032] Unless otherwise expressly specified and limited, the terms "installation," "connection," and "linking" should be interpreted broadly. For example, they can refer to fixed connections, detachable connections, or integral connections; they can refer to mechanical connections or electrical connections; they can refer to direct connections or indirect connections through an intermediate medium; and they can refer to the internal connection between two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model based on the specific circumstances.

[0033] like Figures 1 to 4As shown, a magnetic finger ring holder can be attached to the back of a mobile phone or phone case to assist the user in holding the phone, significantly reducing finger discomfort during prolonged phone use and improving grip comfort and safety. This embodiment of the magnetic finger ring holder includes a magnetic base 1 attached to the back of the mobile phone or phone case, and an irregularly shaped finger ring 2 and a finger plate 3 hinged to the surface of the magnetic base 1. After the magnetic base 1 is installed on the back of the phone, the irregularly shaped finger ring 2 and the finger plate 3 can rotate relative to the surface of the magnetic base 1 to unfold, allowing the user's fingers to pass through the irregularly shaped finger ring 2 on the back of the phone or to support their fingers on the support surface formed by the unfolded finger plate 3, thus improving grip comfort and stability. Furthermore, when not in use, the irregularly shaped finger ring 2 and the finger plate 3 can also rotate relative to the surface of the magnetic base 1 under the action of the hinged connection, thereby folding and fitting against the surface of the magnetic base 1, reducing the overall size of this embodiment for easy storage and carrying.

[0034] Specifically, the irregularly shaped ring 2 in this embodiment is a round-rectangular structure that allows at least two fingers to pass through. This allows the user to pass two fingers through the ring for an assisted grip, improving grip stability and distributing the load across both fingers, thus reducing the pressure on a single finger and enhancing grip comfort. Simultaneously, the rounded edges of the rectangular structure conform to the contours of the fingers, reducing friction after the fingers pass through the ring 2, further improving the comfort of using this embodiment.

[0035] like Figure 1 As shown, when the finger plate 3 of this embodiment is unfolded, its bottom surface can form a support surface for the fingers to support, which can effectively avoid stress concentration on the little finger, causing pain or deformation of the little finger, and thus greatly reduce the discomfort of the fingers when using the mobile phone for a long time. In this embodiment, the surface of the finger plate 3 is covered with a soft silicone layer. When the user's fingers use the finger plate 3 to assist in supporting the mobile phone, the soft silicone layer can reduce the pressure on the fingers, thereby improving the user's grip comfort. The soft touch further enhances comfort and avoids the pressure caused by hard contact. In addition, the bottom surface of the finger plate 3 in this embodiment also has a recessed support portion 31 for supporting the fingers. When the user uses the finger plate 3 for assisted grip, their fingers can fit perfectly into the support portion 31, further improving the user's grip comfort.

[0036] like Figures 3 to 4As shown, the magnetic base 1 of this embodiment includes a ring-shaped magnetic outer ring 11 and a connecting base plate 12 rotatably mounted at the center of the magnetic outer ring 11. The back of the magnetic outer ring 11, for connection with a mobile phone or phone case, has a recessed annular mounting groove 111. A first magnet 4 is disposed within the annular mounting groove 111, allowing the magnetic outer ring 11 to be attracted and connected to the magnetic ring inside the mobile phone or phone case via the first magnet 4. This enables the installation of the magnetic ring holder of this embodiment, making installation convenient. Furthermore, the structure of the annular mounting groove 111 is adapted to the structure of the magnetic ring inside the mobile phone or phone case, so that when the magnetic outer ring 11 is connected to the back of the mobile phone, the first magnet 4 can be attracted to the corresponding magnetic ring inside the mobile phone or phone case, thereby improving the connection stability of the magnetic outer ring 11.

[0037] like Figures 2 to 4 As shown, in this embodiment, the irregularly shaped finger ring 2 and the finger plate 3 are both hinged to the surface of the connecting base plate 12. Furthermore, the connecting base plate 12 is located in the inner center of the magnetic outer ring 11 and can rotate within the inner circle of the magnetic outer ring 11 with the center of the magnetic outer ring 11 as the rotation center. This allows the irregularly shaped finger ring 2 and the finger plate 3 to rotate and switch positions under the drive of the connecting base plate 12, making it convenient for users to select the appropriate auxiliary structure to assist in holding the mobile phone according to the actual situation, thereby improving the comfort and stability of holding the phone. For example, during walking, the connecting base plate 12 can be rotated to move the irregularly shaped ring 2 to a suitable position and unfold it, thereby improving grip stability by passing the fingers through the irregularly shaped ring 2; when using the phone for a long time, the connecting base plate 12 can be rotated to move the finger plate 3 to a suitable position and unfold it, so that the fingers can be supported by the support surface of the finger plate 3, which can improve grip comfort when using the phone for a long time; in addition, the irregularly shaped ring 2 can also be rotated to a suitable position and unfolded to serve as a stand for placing the phone on a table, further enriching the functions of this embodiment and enhancing the flexibility of use.

[0038] Specifically, in this embodiment, two hinges 5 are arranged opposite each other on the surface of the connecting base plate 12. The edges of the irregular ring 2 and the finger plate 3, which are far apart from each other, are respectively connected to one of the hinges 5. After the irregular ring 2 and the finger plate 3 are installed on the surface of the connecting base plate 12, they can be placed on both sides of the surface of the connecting base plate 12 and can be unfolded relative to each other through their respective hinges 5, which can avoid mutual interference when they are unfolded and used, thus avoiding affecting the user experience. Furthermore, in this embodiment, the outer dimensions of the finger plate 3 are smaller than or equal to the inner ring dimensions of the irregular ring 2. When the irregular ring 2 and the finger plate 3 are folded, the finger plate 3 can be nested in the inner ring of the irregular ring 2, thereby reducing the height of the irregular ring 2 and the finger plate 3 after folding. This avoids the two overlapping when folded, which would cause the back of the phone to bulge, keeping the back of the phone flat, making it easy to carry, and reducing the space occupied when storing, thus improving the practicality of this embodiment.

[0039] In addition, such as Figures 2 to 4 As shown, in this embodiment, the irregular ring 2 and the finger plate 3 are provided with opening notches 6 on their adjacent edges, so that users can unfold the irregular ring 2 or the finger plate 3 through their respective opening notches 6, which improves the convenience of use.

[0040] like Figure 4 and Figure 6 As shown, in order to enable the connecting base plate 12 to rotate within the magnetic outer ring 11, thereby adjusting the position of the irregular finger ring 2 and the finger plate 3, a connecting step 112 is provided at the inner edge of the magnetic outer ring 11, and a back plate 8 covering the surface of the annular mounting groove 111 is provided on the back of the magnetic outer ring 11. The connecting step 112 is positioned facing the back of the magnetic outer ring 11, so that the connecting step 112 can combine with the back plate 8 to form an installation space surrounding the inner ring of the magnetic outer ring 11. When the connecting base plate 12 is installed, its edge fits into the installation space, thereby allowing the connecting base plate 12 to rotate around the center of the magnetic outer ring 11 within the installation space, realizing the position adjustment of the irregular finger ring 2 and the finger plate 3. This allows users to adjust the direction of the irregular finger ring 2 and the finger plate 3 according to their grip habits or usage scenarios, enhancing the flexibility of use. Thus, this embodiment can be adapted to various postures such as standing, sitting, and lying down.

[0041] like Figure 2 and Figure 5 As shown, in this embodiment, after the finger plate 3 and the irregular finger ring 2 are folded, their height is higher than the height of the magnetic outer ring 11 and protrudes from the top plane of the magnetic outer ring 11. In this embodiment, by opening a cavity inside the finger plate 3 and setting a second magnet 7 inside the cavity, the finger plate 3 and the irregular finger ring 2 can be attracted and connected to a magnetic surface or an iron surface by the second magnet 7 after being folded, thereby serving as an adsorption component to adsorb the mobile phone onto the surface of an object, which can further enrich the function of this embodiment.

[0042] In summary, this embodiment, by providing an irregularly shaped finger ring 2 on the surface of the magnetic base 1 that allows at least two fingers to pass through, enables users to use the phone by passing two fingers through the ring for an auxiliary grip. This improves grip stability and distributes the load-bearing force across the two fingers, reducing the pressure on a single finger and enhancing grip comfort and safety. Furthermore, by providing a finger plate 3 on the surface of the magnetic base 1, users can place their fingers under the finger plate 3 during extended phone use. The finger plate 3 supports the phone, effectively preventing stress concentration on the little finger, which could cause pain or deformation. This significantly reduces finger discomfort during prolonged phone use and improves grip comfort. Moreover, by hinged the irregularly shaped finger ring 2 and the finger plate 3 to the surface of the magnetic base 1, both can rotate relative to the surface of the magnetic base 1 to unfold or fold. This allows users to fold both for storage and carry, reducing space occupation, and unfold them to support the phone, offering rich functionality and convenient switching.

[0043] The embodiments described above are merely preferred embodiments of this utility model and should not be construed as limiting the scope of protection of this utility model. Any non-substantial changes and modifications made by those skilled in the art based on this utility model shall fall within the scope of protection of this utility model.

Claims

1. A magnetic finger ring holder, characterized by, include: The magnetic base (1) has a built-in first magnet (4) for magnetic connection with a mobile phone or mobile phone case; The irregular ring (2) is hinged to the surface of the magnetic base (1) and can rotate relative to the surface of the magnetic base (1) to unfold or fold, and the irregular ring (2) allows at least two fingers to pass through; The finger plate (3) is hinged to the surface of the magnetic base (1) and can rotate relative to the surface of the magnetic base (1) to unfold or fold, so as to form a support surface for the fingers when unfolded.

2. The magnetic finger ring holder of claim 1, wherein, The magnetic base (1) includes a magnetic outer ring (11) and a connecting base plate (12) rotatably mounted at the center of the magnetic outer ring (11). The irregular finger ring (2) and the finger plate (3) are respectively placed on both sides of the surface of the connecting base plate (12).

3. The magnetic finger ring holder of claim 2, wherein, The bottom of the magnetic outer ring (11) is provided with an annular mounting groove (111), and the first magnet (4) is located in the annular mounting groove (111).

4. The magnetic finger ring holder of claim 2, wherein, The connecting base plate (12) has two hinges (5) arranged opposite to each other. The edges of the irregular finger ring (2) and the finger plate (3) that are far apart from each other are respectively connected to one of the hinges (5). The edges of the irregular finger ring (2) and the finger plate (3) that are close to each other are provided with a notch (6).

5. The magnetic finger ring holder of claim 1, wherein, The irregular ring (2) has a round rectangular structure with an inner diameter that fits two fingers through it.

6. The magnetic finger ring holder of claim 1, wherein, The outer dimensions of the finger plate (3) are smaller than or equal to the inner ring dimensions of the irregular finger ring (2), and it is used to be embedded in the irregular finger ring (2) when folded.

7. The magnetic finger ring holder of claim 1, wherein, The surface of the finger plate (3) is covered with a silicone soft layer.

8. The magnetic finger ring holder of claim 1, wherein, The finger plate (3) has a support portion (31) formed in the concave surface of the surface used to support the fingers.

9. The magnetic finger ring holder of claim 1, wherein, The finger plate (3) has a built-in second magnet (7) for adsorption and connection with a magnetic surface or an iron surface.