A resonant source finger ring

By designing a resonant ring with a rotating and balancing jewel sphere, the problems of physical damage, unreliable connection, lack of aesthetics, and comfort of existing rings have been solved, achieving a dynamic, auditory, and personalized experience, and improving the aesthetics of jewelry and user satisfaction.

CN224357157UActive Publication Date: 2026-06-16SHAANXI BINGBO GREEN JEWELRY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHAANXI BINGBO GREEN JEWELRY CO LTD
Filing Date
2024-06-07
Publication Date
2026-06-16

AI Technical Summary

Technical Problem

Existing ring designs suffer from physical damage and safety risks, unreliable connection methods, insufficient aesthetic and functional experience, and issues with wearing comfort and stability. In particular, the jewelry part is easily damaged, adhesive connections are prone to falling off, drilling can damage the jewelry, and there is a lack of dynamic and auditory experience.

Method used

Featuring a design with rotatable and balanced jewel spheres, these spheres are fixed within a recessed rotating groove by tapping, squeezing, and snapping. Combined with a precious metal ring, this design enables the jewel spheres to rotate and produce sounds. Furthermore, text can be engraved or jewels can be inlaid on the ring to add a personalized element.

Benefits of technology

It improves the aesthetics, comfort, and functional experience of wearing jewelry, provides dynamic and auditory sensations, enhances the interactivity and fun of jewelry, solves several shortcomings of existing technologies, and elevates the artistic value and user experience of jewelry.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model belongs to the technical field of jewelry and ornaments, disclose a resonance source ring, including the finger ring, the outside median line department of the upper part of finger ring is provided with the first nest shape rotation groove, rotatable jewelry sphere is fixed in the first nest shape rotation groove through knocking, extrusion, buckling, the first nest shape rotation groove is provided with the second nest shape rotation groove and is left and right symmetrical, balance rotatable jewelry sphere is fixed in the second nest shape rotation groove through knocking, extrusion, buckling, balance rotatable jewelry sphere and the second nest shape rotation groove between leave the sound production space, the lower part of finger ring is provided with the hollow inlay small -size rotatable sphere, and is fixed in the lower part of finger ring hollow inner wall through knocking, extrusion, buckling. The utility model integrates the whole set of aesthetic feeling, dynamic, sound feeling, law enlightenment feeling.
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Description

Technical Field

[0001] This utility model belongs to the field of jewelry technology, and in particular relates to a resonance source ring. Background Technology

[0002] Rings are ornaments worn on the fingers. Common rings typically feature protruding settings, making their surfaces highly susceptible to scratches and impacts from objects like desks and railings. This can cause deformation and damage to the protruding settings, potentially resulting in personal injury to the wearer. Current adhesive bonding techniques can easily cause the jewelry to detach from the precious metal joints, resulting in significant financial loss for the wearer. Furthermore, drilling techniques used in jewelry can cause some degree of damage to natural and precious gemstones.

[0003] The existing ring technology mainly suffers from the following technical problems:

[0004] 1. Physical damage and safety risks:

[0005] Easily damaged: In common ring designs, the inlaid jewels are usually protruding and are easily bumped against hard objects such as desks and railings during daily activities, causing the inlaid parts to deform or be damaged.

[0006] Personal injury: The protruding parts of the jewelry can easily scratch the wearer's skin upon impact, posing a potential safety hazard.

[0007] 2. The connection method is unreliable:

[0008] Adhesive technology: Existing adhesive bonding methods are prone to failure during use, causing jewelry to fall off the precious metal joints and resulting in economic losses for the wearer.

[0009] Drilling technique: Although drilling can increase the security of jewelry, it can cause some damage to natural and precious jewelry, affecting its beauty and value.

[0010] 3. Insufficient aesthetic and functional experience:

[0011] Single-minded aesthetics: Current technology primarily focuses on the external beauty of the finger in ring design, neglecting the internal experience. Wearers lack an overall aesthetic experience and a unique functional experience during wear.

[0012] Lack of dynamic and auditory experience: Existing ring designs fail to combine dynamism and sound, failing to provide a rich sensory experience. Wearers lack multi-dimensional sensations during use, impacting both the artistic value of the jewelry and the user experience.

[0013] 4. Wearing comfort and stability issues:

[0014] Wearing comfort: Some ring designs can cause discomfort when worn, especially if the internal structure is not optimized, which can lead to finger discomfort or fatigue with prolonged wear.

[0015] Stability issues: The ring may slip or loosen during wear due to finger movements, affecting the stability and safety of the ring.

[0016] In conclusion, existing ring technology has certain shortcomings in terms of physical security, connection stability, aesthetics, and functional experience. These issues need to be addressed through innovative design and technological improvements to provide wearers with safer, more beautiful, more comfortable, and sensorially enriching jewelry. Utility Model Content

[0017] In view of the problems existing in the prior art, this utility model provides a resonance source ring.

[0018] This invention is implemented as follows: a resonance source ring includes a ring band. A first recessed rotating groove is provided at the center line of the upper part of the ring band. A rotatable jeweled ball is fixed within the first recessed rotating groove by tapping, pressing, or fastening. A second recessed rotating groove is symmetrically arranged on both sides of the first recessed rotating groove. A balancing rotatable jeweled ball is fixed within the second recessed rotating groove by tapping, pressing, or fastening. A sound-generating space is left between the balancing rotatable jeweled ball and the second recessed rotating groove. A hollow, inlaid small rotatable ball is provided at the center line of the lower part of the ring band and is fixed within the hollow inner wall of the lower part of the ring band by tapping, pressing, or fastening.

[0019] Furthermore, the width of the upper structure of the ring is greater than that of the lower structure, and the width of the upper and lower parts is greater than that of the middle structure; the thickness of the upper and lower parts is greater than that of the middle structure.

[0020] Furthermore, the lower part of the ring has a hollow, inlaid small rotatable sphere with an information collection block code on its right side. The information collection block code is used to enter information related to the person who customized the ring and the company.

[0021] Furthermore, the ring is a closed ring with a solid wall structure.

[0022] Furthermore, the central wall of the ring has a hollow structure.

[0023] Furthermore, the ring is engraved with text, trademarks, and inlaid with jewelry.

[0024] Furthermore, the ring material is a precious metal: gold, 18k gold, silver, platinum, palladium, rhodium, etc., or other inexpensive metals: copper, aluminum, iron, and other alloys, etc.

[0025] Based on the above technical solutions and the technical problems solved, the advantages and positive effects of the technical solution to be protected by this utility model are as follows:

[0026] First, the structure of this utility model is simple and easy to manufacture. The design of the structural bead sphere of this utility model realizes the rotation function of the sphere by fixing the lower structure of the jewelry sphere, which can display the jewelry sphere from all directions.

[0027] This invention features balanced rotating small jewelry spheres on both sides of a rotatable jewelry sphere, improving the overall appearance of the upper part of the resonance source and enhancing its dynamism.

[0028] This invention transforms existing methods of inlaying, gluing, and drilling into fastening and fixing of jewelry spheres, achieving dynamic functions in both the upper and lower parts, and integrating aesthetics, dynamism, and sound.

[0029] The thickness of the middle part of the ring is smaller than that of the top and bottom parts. This structure can save materials and is more conducive to relieving the discomfort caused by wearing the ring between the fingers.

[0030] The upper part of this new type of finger ring is wider than the lower part, which brings a different aesthetic experience to the user.

[0031] This invention provides a resonance source ring that integrates aesthetics, dynamism, and sound, thus solving the problem of weak user experience due to a single functional unit.

[0032] Secondly, the design of the resonance source ring provided by this utility model fully considers the wearer's comfort and personalized needs. The ring's design can perfectly fit the wearer's finger, providing a comfortable wearing experience. Furthermore, text, logos, or sandblasting techniques can be engraved on the ring, and even the lower part can be hollowed out and inlaid with rotating jewels or information recording blocks, increasing the ring's personalized elements and meeting diverse needs.

[0033] The resonant ring provided by this utility model features a clever design with a rotatable and a balancing rotatable jewel sphere. The balancing rotatable jewel sphere is fixed to both sides of the ring, and its connection to the precious metal is achieved through tapping, pressing, and securing, while leaving space to allow for rotation and sound generation. This allows the small rotating component to rotate freely within a certain range, thus producing sound.

[0034] The ring provided by this utility model adopts a hollow inlaid jewel sphere design at the lower part, realizing the rotation function of the jewel sphere. This design not only shows the uniformity of the upper and lower parts of the jewel ring, but also improves the wearing experience of the wearer.

[0035] The resonance source ring provided by this utility model solves the problems of wearing comfort, personalized needs, innovation in upper and lower functionalities to enlighten consumers' understanding of patterns and aesthetics in the existing technology through a series of design innovations, and has achieved significant technological progress.

[0036] The large upper jeweled sphere and the small lower jeweled sphere of this ring create a striking contrast, clearly illustrating their contradictory yet interdependent relationship. This evokes a mindset of respecting natural laws, enlightening users, and exploring the unknown. This groundbreaking innovation will undoubtedly inspire jewelry industry professionals to explore the diversified development of jewelry. Technological innovation has played a significant role in this process; the anticipated benefits and commercial value of this solution, as well as its intellectual and artistic value, are immense.

[0037] In the application embodiment of this utility model, the design scheme in which the middle left and right parts of the ring are slightly thinner than the top and bottom parts of the ring fully considers the comfort and personalized needs of the wearer's fingers and has achieved significant technical progress.

[0038] This utility model's technical solution solves a long-standing technical problem that people have long desired to solve but have consistently failed to achieve: For many years, our company's technical personnel have conducted extensive investigations in the jewelry market and raw stone mining areas, and have carried out numerous experiments on various natural jade, gemstones, jadeite, and jewelry, examining the structure, density, hardness, toughness, luster, and clarity of the raw materials. Based on the different structures of jewelry raw materials, we have developed solutions to improve density, hardness, toughness, and luster, achieving positive results and overcoming a long-standing technical problem in the jewelry industry that has remained unsolved.

[0039] Fourth, the technological breakthroughs and advantages of this utility model.

[0040] Functional Innovation: This new ring not only retains the decorative and aesthetic appeal of traditional jewelry but also incorporates new functional elements. By introducing a rotatable jeweled sphere and a hollowly inlaid small rotatable sphere, the ring enhances user interactivity and experience, thereby increasing the product's fun and personalized functionality.

[0041] Enhanced user experience: Through different interactive experiences on the top and bottom, users can feel different dynamic and auditory sensations, thus enhancing the wearing experience. This interactivity not only increases users' interest and enjoyment of the product but also makes each wearing experience a unique one, increasing the product's added value and appeal.

[0042] Breaking through market bottlenecks: Currently, the domestic and international jewelry markets suffer from severe product homogenization, limited functionality, and weak user experience, making it difficult to meet users' pursuit of high-quality jewelry. Attached Figure Description

[0043] To more clearly illustrate the technical solutions of the embodiments of this utility model, the drawings used in the embodiments of this utility model 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.

[0044] Figure 1 This is a front view of the resonance source ring provided in this embodiment of the utility model;

[0045] Figure 2 This is a right view of the resonance source ring provided in this embodiment of the utility model;

[0046] Figure 3 This is a top view of the resonance source ring provided in this embodiment of the utility model;

[0047] Figure 4 This is a rear view of the resonance source ring provided in this embodiment of the utility model;

[0048] Figure 5 This is a left view of the resonance source ring provided in this embodiment of the utility model;

[0049] Figure 6 This is a bottom view of the resonance source ring provided in this embodiment of the utility model;

[0050] Figure 7 This is a three-dimensional view of the resonance source ring provided in an embodiment of this utility model;

[0051] Figure 8 This is a disassembly diagram of the resonance source ring provided in this embodiment of the utility model;

[0052] Figure 9 This is a disassembled and anatomical diagram of the resonance source ring provided in this embodiment of the utility model;

[0053] In the diagram: 1. Ring; 2. Rotatable jewel sphere; 2b. First recessed rotating groove; 3. Balanced rotatable jewel sphere; 3b. Second recessed rotating groove; 4. Hollow inlaid small rotatable sphere; 4b. Hollow inner wall of the lower part of the ring; 5. Upper structure of the ring; 6. Lower structure of the ring; 7. Information recording block code; 8. Middle structure of the ring. Detailed Implementation

[0054] To make the objectives, technical solutions, and advantages of this utility model clearer, the following detailed description is provided in conjunction with embodiments. It should be understood that the specific embodiments described herein are merely illustrative and not intended to limit the scope of this utility model.

[0055] like Figure 7As shown, an embodiment of this utility model provides a resonance source ring, including a ring 1, as follows: Figure 8 As shown, a first recessed rotating groove 2b is provided at the center line of the upper part of the ring 1, and the rotatable jewelry ball 2 is fixed in the first recessed rotating groove 2b by tapping, squeezing, and snapping; as Figure 9 As shown, a second recessed rotating groove 3b is symmetrically arranged on the left and right sides of the first recessed rotating groove 2b. The rotatable jewel sphere 3 is fixed in the second recessed rotating groove 3b by tapping, pressing, and fastening. There is a space between the rotatable jewel sphere 3 and the second recessed rotating groove 3b to generate sound. A hollow inlaid small rotatable sphere 4 is provided at the lower part of the ring and is fixed in the hollow inner wall 4b of the lower part of the ring by tapping, pressing, and fastening.

[0056] like Figure 2 As shown, the width of the upper structure 5 of the ring is greater than that of the lower structure 6 of the ring, and the widths of the upper and lower parts are greater than those of the middle structure; as Figure 1 As shown, the thickness of the upper and lower parts is greater than that of the middle structure 8 of the ring.

[0057] The ring 1 is designed for the wearer's finger and can be engraved with text, trademarks, or inlaid with jewelry. For example... Figure 6 As shown, the hollow inlaid small rotatable sphere 4 at the bottom of the ring has an information collection block code 7 on its right side. The information collection block code 7 is used to enter information related to the person who customized the ring, the company, and for anti-counterfeiting purposes.

[0058] The ring 1 can be a closed ring with a solid wall structure; the wall in the middle of the ring can also be a hollow structure.

[0059] Furthermore, the material of the ring 1 is a precious metal: gold, 18k gold, silver, platinum, palladium, rhodium, etc., or other inexpensive metals: copper, aluminum, iron, and other alloys, etc.

[0060] The resonance source ring provided in this embodiment of the utility model, through its unique design and structural combination, not only provides the wearer with a decorative function but also generates sound. Utilizing a regular design concept of inner and outer, large and small, upper and lower, and wide and narrow, it offers diverse jewelry decoration functions. This ring combines aesthetics and practicality, providing a novel interactive experience. Its specific structure and functions are as follows:

[0061] Ring 1, the main body of the ring, is designed to fit comfortably on the user's finger. Ring 2 can be personalized according to the user's preferences, such as engraving text, logos, or using a polished sandblasting process, or inlaid with jewelry. In addition, ring 2 can also be equipped with information storage blocks 7, such as QR codes or NFC chips, to enhance the ring's information functionality.

[0062] Ring 1 features a hollow, rotatable jeweled sphere in the lower part, which not only enhances the decorative effect of the ring but also allows the jeweled sphere to rotate freely within the lower part of the ring, creating a visually and aurally unified effect between the upper and lower parts.

[0063] The rotatable jewelry sphere 2 showcases the natural beauty of the jewelry from all angles by rotating, and its connection with the balanced rotatable jewelry sphere further enhances the ring's fun and interactivity.

[0064] Example 1: Interactive Art and Entertainment Resonance Source Ring

[0065] Made with precious metals such as 92.5% silver, 18k gold, and Pt palladium, the surface is polished and engraved with intricate patterns, then sandblasted to enhance its beauty. Various granular gemstones are set into the ring, adding a unique aesthetic experience.

[0066] Jewelry rotatable spheres, balanced rotatable jewelry spheres, and hollow inlaid rotatable spheres are made of natural jewelry materials or different precious metals. The jewelry spheres can produce sound when they rotate in a nest shape.

[0067] Example 2: Elegant Commemorative Resonance Source Ring

[0068] Made of 18K gold; the exterior can be smooth or sandblasted. The ring is ergonomically designed with the left and right sides of the center to increase wearing comfort. The ring can be engraved with commemorative dates, names, or information in a block code, providing personalized customization services.

[0069] The rotatable spheres for jewelry can be customized to different sizes based on the user's individual preferences. The width of the upper arc surface of the ring can also be adjusted according to the user's requirements, so that the precious metal reflects different levels of luster.

[0070] The lower part features a hollow, inlaid, rotatable sphere, a small and exquisite natural gemstone sphere that enhances the overall structural experience and allows the sphere to rotate with the movement of the fingers.

[0071]

[0072] In the description of this utility model, unless otherwise stated, "multiple" means two or more: terms such as "upper," "lower," "left," "right," "inner," "outer," "wide," "narrow," "large," "small," "front end," "rear end," "head," and "tail" indicate orientation or positional relationships. Based on the orientation or positional relationships shown in the accompanying drawings, they 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 structure and operation. Therefore, they should not be construed as limitations on this utility model. In addition, terms such as "first," "second," and "third" are used for purpose only and should not be construed as indicating or implying relative importance.

[0073] The above description is only a specific embodiment of this utility model, but the protection scope of this utility model is not limited thereto. Any modifications, equivalent substitutions and improvements made by those skilled in the art within the technical scope disclosed in this utility model, and within the spirit and principles of this utility model, should be included within the protection scope of this utility model.

Claims

1. A resonance source ring, characterized in that, The ring includes a ring with a first recessed rotating groove at the outer center line of the upper part of the ring. A rotatable jewel sphere is fixed in the first recessed rotating groove by tapping, pressing, and fastening. A second recessed rotating groove is symmetrically arranged on both sides of the first recessed rotating groove. A balancing rotatable jewel sphere is fixed in the second recessed rotating groove by tapping, pressing, and fastening. A space is left between the balancing rotatable jewel sphere and the second recessed rotating groove to generate sound. A hollow inlaid small rotatable sphere is provided in the lower part of the ring and is fixed in the hollow inner wall of the lower part of the ring by tapping, pressing, and fastening.

2. The resonance source ring as described in claim 1, characterized in that, The width of the upper structure of the ring is greater than that of the lower structure, and the width of the upper and lower parts is greater than that of the middle structure; the thickness of the upper and lower parts is greater than that of the middle structure.

3. The resonance source ring as described in claim 1, characterized in that, The ring is a closed ring with a solid wall structure.

4. The resonance source ring as described in claim 1, characterized in that, The central wall of the ring has a hollow structure.

5. The resonance source ring as described in claim 1, characterized in that, The ring material is a precious metal or other inexpensive metal.