Bracelet jewelry PVD gold plated hanger

By designing a grid structure for the PVD gold-plated hanger and increasing the number of grid pieces, the problem of metal bracelets being stained was solved, improving the yield rate and labor efficiency, and increasing the bracelet loading capacity.

CN224411955UActive Publication Date: 2026-06-26HENGJI COATING (SHENZHEN) CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HENGJI COATING (SHENZHEN) CO LTD
Filing Date
2025-08-12
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

Existing bracelet hangers cause noticeable scratch marks on metal bracelets produced in the factory, affecting the yield rate.

Method used

The bracelet is supported by a PVD gold-plated hanger with a grid structure, including a first, second and third grid. The elasticity of the grid material supports the bracelet, and the target material atoms are deposited through the gaps in the grid, which reduces the printing effect. At the same time, each fixing plate connects 8 grid structures.

Benefits of technology

It improves the yield rate of metal bracelets, the simple hanging method increases labor efficiency, and increases the loading capacity of metal bracelets.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model provides a bracelet ornament PVD gold-plating hanger, it includes support rod, fixed disc, connecting piece and grid piece structure. The middle part of fixed disc is provided with fixed groove, and fixed disc is set on the support rod through fixed groove. Fixed disc is connected with the support rod, and one end of connecting piece is connected with fixed disc. The grid piece structure includes first grid piece, second grid piece and third grid piece, and first grid piece and second grid piece are connected to the two ends of third grid piece respectively. First grid piece and third grid piece form first included angle between them, and first included angle is obtuse. Second included angle is formed between first grid piece and third grid piece, and second included angle is obtuse. One end of connecting piece away from fixed disc is connected with third grid piece, a plurality of first hanging holes are arranged on first grid piece, and a plurality of second hanging holes are arranged on second grid piece. The hanging part of one end of bracelet opening is limited in first hanging hole, and the hanging part of the other end of bracelet opening is limited in second hanging hole.
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Description

Technical Field

[0001] This utility model relates to the field of jewelry hanging technology, and in particular to a PVD gold-plated hanging device for bracelets. Background Technology

[0002] In modern society, metal bracelets produced in factories need to be hung on bracelet hangers. For example... Figure 1 As shown, traditional bracelet hangers 30 typically suspend bracelets 31 using copper wire, which results in noticeable hang marks on the bracelets 31, leading to an increased defect rate. Therefore, existing bracelet hangers present a technical problem that causes noticeable hang marks on metal bracelets produced in the factory.

[0003] Therefore, it is necessary to provide a PVD gold-plated pendant for bracelets and jewelry to solve the above-mentioned technical problems. Utility Model Content

[0004] This utility model provides a PVD gold-plated bracelet pendant, which effectively solves the technical problem that existing bracelet pendants cause obvious stains on metal bracelets produced in factories.

[0005] This utility model provides a PVD gold-plated pendant for bracelets, comprising:

[0006] Support rod;

[0007] A fixed plate has a fixing groove in its middle, and the fixed plate is sleeved on the support rod through the fixing groove. The fixed plate is connected to the support rod.

[0008] A connector, one end of which is connected to the fixed plate;

[0009] The mesh structure includes a first mesh, a second mesh, and a third mesh. The first and second meshes are respectively connected to both ends of the third mesh. A first angle, which is obtuse, is formed between the first and third meshes. A second angle, which is also obtuse, is formed between the second and third meshes. The third mesh is connected to the end of the connector away from the fixing plate. The first mesh has a plurality of first hook holes, and the second mesh has a plurality of second hook holes. The hooking part at one end of the bracelet opening is confined in the first hook hole, and the hooking part at the other end of the bracelet opening is confined in the second hook hole.

[0010] Furthermore, the fixing plate includes a fixing part, which is disposed in the middle of the fixing plate. The fixing part is cylindrical, and the fixing groove is disposed inside the fixing part.

[0011] Furthermore, both the first and second hook holes are square in shape.

[0012] Furthermore, the multiple square first hook holes are evenly distributed in a grid pattern on the first mesh plate, and the multiple square second hook holes are evenly distributed in a grid pattern on the second mesh plate.

[0013] Furthermore, a positioning hole is provided in the middle of the third mesh piece, the position of which corresponds to the position of the connector, and the positioning hole is used to position the mesh piece structure during installation.

[0014] Furthermore, the connector includes a positioning groove, which is disposed at one end of the connector and connected to the fixing plate. The positioning groove is used to position the connector during installation.

[0015] Furthermore, the support rod also includes a base connected to the lower end of the support rod, the base being used to support the PVD gold-plated pendant of the bracelet ornament.

[0016] Furthermore, the connector is welded to the third mesh piece, and the connector is welded to the fixing plate.

[0017] Furthermore, the sizes of the multiple first mounting holes are different, and the sizes of the multiple second mounting holes are different.

[0018] Furthermore, 4-8 of the mesh structures are connected to each of the fixed disks.

[0019] Compared with the prior art, the advantages of this utility model are as follows: This utility model provides a PVD gold-plated bracelet pendant with a mesh structure. The mesh structure includes a first mesh, a second mesh, and a third mesh, with the first and second meshes connected to the two ends of the third mesh. The first mesh has multiple first hooking holes, and the second mesh has multiple second hooking holes. The hooking portion at one end of the bracelet opening is confined in the first hooking hole, and the hooking portion at the other end of the bracelet opening is confined in the second hooking hole. Thus, the bracelet can be hung vertically on the meshes on both sides of the mesh structure, utilizing the elasticity of the mesh material to support the bracelet and prevent it from falling off. Simultaneously, the gaps in the mesh allow target material atoms to penetrate and deposit at the hanging position of the bracelet, reducing the appearance of scratches. This, in turn, helps improve the yield rate of metal bracelets produced in factories. It effectively solves the technical problem that existing bracelet pendants cause obvious scratches on metal bracelets produced in factories.

[0020] Moreover, compared to the traditional method of suspending metal bracelets with copper wire, this PVD-plated gold-plated bracelet hanger is simpler and easier to operate, reducing the need for tying copper wire and significantly improving labor efficiency. Furthermore, unlike existing technologies where only four mesh pieces can be hung on each mounting plate, this PVD-plated gold-plated bracelet hanger connects eight mesh pieces to each mounting plate. Therefore, this PVD-plated gold-plated bracelet hanger effectively increases the capacity of metal bracelets, effectively doubling the number of metal bracelets that can be suspended. Attached Figure Description

[0021] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the embodiments are briefly introduced below. The drawings described below are only the corresponding drawings of some embodiments of this utility model.

[0022] Figure 1 This is a structural diagram of a PVD gold-plated pendant for bracelets and jewelry using existing technology.

[0023] Figure 2 This is a structural diagram of the first embodiment of the PVD gold-plated pendant for bracelets and ornaments of this utility model.

[0024] Figure 3 This is one of the connection structure diagrams of the fixing plate and the mesh plate structure in the first embodiment of the PVD gold-plated pendant for bracelets and ornaments of this utility model.

[0025] Figure 4 This is the second diagram showing the connection structure between the fixing plate and the mesh sheet in the first embodiment of the PVD gold-plated pendant for bracelets and jewelry of this utility model.

[0026] Figure 5 This is a structural diagram of the fixing plate of the first embodiment of the PVD gold-plated pendant for bracelets and jewelry of this utility model.

[0027] Figure 6 This is a plan view of the first mesh piece in the second embodiment of the PVD gold-plated pendant for bracelets and ornaments of this utility model.

[0028] Figure 7 This is a plan view of the second mesh piece in the second embodiment of the PVD gold-plated pendant for bracelets and ornaments of this utility model.

[0029] In the diagram, 10 is a PVD gold-plated pendant for a bracelet; 11 is a support rod; 111 is a base; 12 is a fixing plate; 121 is a fixing part; 1211 is a through hole; 122 is a fixing groove; 13 is a connector; 131 is a positioning groove; 14 is a mesh structure; 141 is the first mesh piece; 1411 is the first hanging hole; 142 is the second mesh piece; 1421 is the second hanging hole; 143 is the third mesh piece; 1431 is a positioning hole; 15 is a bracelet; 20 is the first mesh piece; 21 is the first hanging hole; 22 is the second mesh piece; 23 is the second hanging hole; 30 is a bracelet pendant; and 31 is a bracelet. Detailed Implementation

[0030] 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 skilled in the art without creative effort are within the protection scope of the present utility model.

[0031] The directional terms mentioned in this utility model, such as "up", "down", "front", "back", "left", "right", "inner", "outer", "side", "top" and "bottom", are only for reference to the orientation of the accompanying drawings. The directional terms used are for the purpose of explaining and understanding this utility model, and are not intended to limit this utility model.

[0032] The terms "first" and "second" in this utility model are used for descriptive purposes only and should not be construed as indicating or implying relative importance, nor as a restriction on the order of events.

[0033] In the diagram, units with similar structures are represented by the same labels.

[0034] Please refer to Figure 2 and Figure 3The first embodiment of this utility model provides a PVD-plated gold-plated bracelet pendant 10, which includes a support rod 11, a fixing plate 12, a connector 13, and a mesh structure 14. The bracelet pendant 10 is made of 304 stainless steel or 316 stainless steel. The support rod 11 also includes a base 111, which is connected to the lower end of the support rod 11 and supports the bracelet pendant 10. A fixing groove 122 is provided in the middle of the fixing plate 12, and the fixing plate 12 is fitted onto the support rod 11 through the fixing groove 122. The fixing plate 12 is connected to the support rod 11, and one end of the connector 13 is connected to the fixing plate 12. The mesh structure 14 includes a first mesh 141, a second mesh 142, and a third mesh 143, with the first mesh 141 and the second mesh 142 respectively connected to both ends of the third mesh 143. A first included angle, which is obtuse, is formed between the first mesh piece 141 and the third mesh piece 143, with an angle of 120°-150°. A second included angle, which is also obtuse, is formed between the second mesh piece 142 and the third mesh piece 143, with an angle of 120°-150°. The third mesh piece 143 is connected to the end of the connector 13 away from the fixing plate 12. The first mesh piece 141 has a plurality of first hanging holes 1411, and the second mesh piece 142 has a plurality of second hanging holes 1421. The hanging portion at one end of the opening of the bracelet 15 is located in the first hanging hole 1411, and the hanging portion at the other end of the opening of the bracelet 15 is located in the second hanging hole 1421.

[0035] Therefore, the bracelet 15 can be vertically hung on the mesh plates on both sides of the mesh structure 14, using the elasticity of the mesh material itself to support the bracelet and prevent it from falling off. Simultaneously, the gaps in the mesh allow target material atoms to penetrate and deposit at the hanging position, reducing smudging. This, in turn, helps improve the yield rate of metal bracelets produced in the factory. It effectively solves the technical problem that existing bracelet hangers cause obvious smudging marks on metal bracelets produced in the factory. Furthermore, compared to the traditional method of tying copper wire to hang metal bracelets, this PVD gold-plated bracelet hanger 10 is simpler and easier to operate, reducing the need for tying copper wire and effectively improving worker efficiency.

[0036] Please refer to Figure 2 , Figure 3 and Figure 5The fixing plate 12 includes a fixing part 121, which is located in the middle of the fixing plate 12. The fixing part 121 is cylindrical, and a fixing groove 122 is located inside the fixing part 121. The main body of the fixing plate 12 is a flat annular structure, and the fixing part 121 is a cylindrical structure that protrudes from the fixing plate 12, with the fixing groove 122 located inside the fixing part 121. Therefore, the fixing part 121 increases the contact area between the fixing groove 122 and the support rod 11, making the connection between the fixing groove 122 and the support rod 11 more stable. The PVD gold-plated pendant 10 for the bracelet also includes a bolt and a nut (not shown in the figure). A through hole 1211 is provided on the side wall of the fixing part 121. The through hole 1211 communicates with the nut, and the bolt passes through the screw hole and the through hole 1211. The bolt and the nut are threadedly connected, thereby fixing the fixing plate 12 and the support rod 11. Because the fixed plate 12 and the support rod 11 are connected by bolts and nuts, it is relatively convenient for users to install and remove the fixed plate 12.

[0037] Please refer to Figure 3 The first hanging hole 1411 and the second hanging hole 1421 are both square. In this embodiment, both the first hanging hole 1411 and the second hanging hole 1421 are square, and the side length of both the first hanging hole 1411 and the second hanging hole 1421 is 2mm. The square first hanging hole 1411 and the second hanging hole 1421 can better fit the metal bracelet, thus allowing the PVD gold-plated bracelet pendant 10 to better hang the metal bracelet. Multiple square first hanging holes 1411 are evenly distributed in a grid pattern on the first grid plate 141, therefore, a large number of first hanging holes 1411 can be provided on the first grid plate 141. Multiple square second hanging holes 1421 are evenly distributed in a grid pattern on the second grid plate 142, therefore, a large number of second hanging holes 1421 can be provided on the second grid plate 142. Therefore, the user can hang more metal bracelets on the PVD gold-plated bracelet pendant 10.

[0038] Please refer to Figure 3 and Figure 4The third mesh piece 143 has a positioning hole 1431 in its center, and the position of the positioning hole 1431 corresponds to the position of the connector 13. When installing the third mesh piece 143, it can first be positioned through the positioning hole 1431, and then the user connects the third mesh piece 143 to the connector 13. Therefore, it is more convenient for the user to install the third mesh piece 143 on the connector 13. The connector 13 includes a positioning groove 131, which is located at one end of the connector 13 and connects to the fixing plate 12. When installing the connector 13, it can first be positioned through the positioning groove 131. Then, the user connects the connector 13 to the fixing plate 12. Therefore, it is more convenient for the user to install the connector 13 on the fixing plate 12.

[0039] Please refer to Figure 3 The connector 13 is welded to the third mesh piece 143. Therefore, the connection between the connector 13 and the third mesh piece 143 is relatively stable. Even after prolonged use of the PVD-plated bracelet pendant 10, the third mesh piece 143 and the connector 13 will not loosen. The connector 13 is also welded to the fixing plate 12, thus ensuring a stable connection. Even after prolonged use of the PVD-plated bracelet pendant 10, the connector 13 will not detach from the fixing plate 12. Furthermore, each fixing plate 12 is connected to 4-8 mesh piece structures 14. In this embodiment, each fixing plate 12 is connected to 8 mesh piece structures 14. Compared to the prior art where only 4 mesh pieces can be hung on each fixing plate 12, this PVD-plated bracelet pendant 10 effectively increases the loading capacity of metal bracelets, effectively doubling the number of metal bracelets that can be suspended.

[0040] Please refer to Figure 6 and Figure 7 In the second embodiment of this utility model, the multiple first hanging holes 21 on the first mesh plate 20 have different sizes, and the multiple second hanging holes 23 on the second mesh plate 22 have different sizes. Therefore, the first hanging holes 21 and the second hanging holes 23 have multiple sizes. Furthermore, the other component structures of the PVD-plated gold-plated bracelet pendant in this embodiment are the same as those in the first embodiment; please refer to the detailed description of the component structure in the first embodiment for details. Because the first hanging holes 21 and the second hanging holes 23 have multiple sizes, the PVD-plated gold-plated bracelet pendant of this embodiment can hang metal bracelets of various sizes. Therefore, the applicability of the PVD-plated gold-plated bracelet pendant can be effectively improved.

[0041] The installation process of this utility model is as follows: First, the user provides a support rod 11. The lower end of the support rod 11 is connected to a base 111, which is used to support the PVD gold-plated pendant 10 of the bracelet jewelry. Then, the user fits the fixing plate 12 onto the support rod 11 through the fixing groove 122. Next, the user inserts bolts into the screw holes and the through holes 1211 on the fixing part 121. Furthermore, the user threads the bolts and nuts together, thereby fixing the fixing plate 12 and the support rod 11. Subsequently, the user provides a mesh structure 14, which includes a first mesh 141, a second mesh 142, and a third mesh 143. The first mesh 141 and the second mesh 142 are respectively connected to the two ends of the third mesh 143. The first mesh 141 is provided with a plurality of square first hook holes 1411, which are evenly distributed in a grid pattern on the first mesh 141. The second mesh piece 142 has multiple square second hanging holes 1421, which are evenly distributed in a grid pattern on the second mesh piece 142. Next, the user positions the mesh piece structure 14 through the positioning holes 1431. Then, the user connects the third mesh piece 143 of the mesh piece structure 14 to the connector 13 by welding. Furthermore, eight mesh piece structures 14 can be connected to each fixing plate 12. Subsequently, the user positions the connector 13 through the positioning groove 131 and connects the connector 13 to the fixing plate 12 by welding. After the user installs the PVD-plated gold-plated bracelet pendant 10, the user can confine the hanging part at one end of the bracelet 15's opening to the first hanging hole 1411, and the user can confine the hanging part at the other end of the bracelet 15's opening to the second hanging hole 1421, thereby allowing the bracelet to hang on the PVD-plated gold-plated bracelet pendant 10.

[0042] This utility model provides a PVD gold-plated bracelet pendant with a mesh structure. The mesh structure includes a first mesh, a second mesh, and a third mesh, with the first and second meshes connected to the two ends of the third mesh. The first mesh has multiple first hooking holes, and the second mesh has multiple second hooking holes. The hooking portion at one end of the bracelet opening is confined to the first hooking hole, and the hooking portion at the other end of the bracelet opening is confined to the second hooking hole. Thus, the bracelet can be hung vertically on the meshes on both sides of the mesh structure, utilizing the elasticity of the mesh material to support the bracelet and prevent it from falling off. Simultaneously, the gaps in the mesh allow target material atoms to penetrate and deposit at the hanging position, reducing smudging. This, in turn, improves the yield rate of metal bracelets produced in factories. It effectively solves the technical problem that existing bracelet pendants cause obvious smudging on metal bracelets produced in factories.

[0043] Moreover, compared to the traditional method of suspending metal bracelets with copper wire, this PVD-plated gold-plated bracelet hanger is simpler and easier to operate, reducing the need for tying copper wire and significantly improving labor efficiency. Furthermore, unlike existing technologies where only four mesh pieces can be hung on each mounting plate, this PVD-plated gold-plated bracelet hanger connects eight mesh pieces to each mounting plate. Therefore, this PVD-plated gold-plated bracelet hanger effectively increases the capacity of metal bracelets, effectively doubling the number of metal bracelets that can be suspended.

[0044] In summary, although the present invention has been disclosed above with reference to preferred embodiments, the above preferred embodiments are not intended to limit the present invention. Those skilled in the art can make various modifications and refinements without departing from the spirit and scope of the present invention. Therefore, the scope of protection of the present invention shall be determined by the scope defined in the claims.

Claims

1. A PVD gold-plated pendant for bracelets, characterized in that, It includes, Support rod; A fixed plate has a fixing groove in its middle, and the fixed plate is sleeved on the support rod through the fixing groove. The fixed plate is connected to the support rod. A connector, one end of which is connected to the fixed plate; The mesh structure includes a first mesh, a second mesh, and a third mesh. The first and second meshes are respectively connected to both ends of the third mesh. A first angle, which is obtuse, is formed between the first and third meshes. A second angle, which is also obtuse, is formed between the second and third meshes. The third mesh is connected to the end of the connector away from the fixing plate. The first mesh has a plurality of first hook holes, and the second mesh has a plurality of second hook holes. The hooking part at one end of the bracelet opening is confined in the first hook hole, and the hooking part at the other end of the bracelet opening is confined in the second hook hole.

2. The PVD gold-plated pendant for bracelets and ornaments according to claim 1, characterized in that, The fixing plate includes a fixing part, which is disposed in the middle of the fixing plate. The fixing part is cylindrical, and the fixing groove is disposed inside the fixing part.

3. The PVD gold-plated pendant for bracelets and ornaments according to claim 2, characterized in that, The first mounting hole is square in shape, and the second mounting hole is square in shape.

4. The PVD gold-plated pendant for bracelets and ornaments according to claim 3, characterized in that, Multiple square first hook holes are evenly distributed in a grid pattern on the first grid plate, and multiple square second hook holes are evenly distributed in a grid pattern on the second grid plate.

5. The PVD gold-plated pendant for bracelets and ornaments according to claim 3, characterized in that, The third mesh piece has a positioning hole in the middle, and the position of the positioning hole corresponds to the position of the connector. The positioning hole is used to position the mesh piece structure during installation.

6. The PVD gold-plated pendant for bracelets and ornaments according to claim 1, characterized in that, The connector includes a positioning groove, which is disposed at one end of the connector and connected to the fixing plate. The positioning groove is used to position the connector during installation.

7. The PVD gold-plated pendant for bracelets and ornaments according to claim 1, characterized in that, The support rod also includes a base connected to the lower end of the support rod, and the base is used to support the PVD gold-plated pendant of the bracelet.

8. The PVD gold-plated pendant for bracelets and ornaments according to claim 1, characterized in that, The connector is welded to the third mesh piece, and the connector is welded to the fixing plate.

9. The PVD gold-plated pendant for bracelets and ornaments according to claim 1, characterized in that, The first mounting holes have different sizes, and the second mounting holes have different sizes.

10. The PVD gold-plated pendant for bracelets and ornaments according to claim 1, characterized in that, Each of the fixed disks is connected to 4-8 of the mesh structures.