CN217959022U - Combined jewelry - Google Patents

Abstract

The utility model discloses a combined jewelry, which comprises combined petals, wherein the combined petals comprise a titanium petal body and an alloy petal tip embedded in the titanium petal body; the titanium petal body is provided with a titanium scarf joint surface, the alloy petal tip is provided with an alloy scarf joint surface combined with the titanium scarf joint surface, and the alloy scarf joint surface is of a V-shaped structure; a plurality of inserts are embedded in the surface of the alloy petal tip. The combined jewelry is assembled by combining the combined petals, and for a structure which is difficult to form at one time, the titanium material is combined with other materials by combining a plurality of parts, so that the decorative effect and the value of the jewelry are improved, and the manufacturing difficulty and the production cost can be reduced.

Description

Combined jewelry

Technical Field

The utility model relates to an ornament preparation technical field, concretely relates to combination ornament.

Background

The titanium alloy has excellent anodic oxidation coloring performance, can obtain bright and rich colors after anodic oxidation treatment, greatly improves the decorative effect of the product, and is favored by the industry of craft ornaments.

However, titanium alloys are difficult to process, especially have high melting points and excessively strong oxidation activities, and are difficult to cast and form by conventional casting methods. Most of the jewelry needs to be embedded with gems, and particularly, the manner of embedding a large number of small broken gems in a dense nail is popular in the market. The production mode of the dense nail inlay with high efficiency and low cost is a main process of wax inlay, and the precious stones are inlaid on a wax mould, and are directly wrapped and inlaid by metal after casting. However, the titanium alloy cannot be cast by wax insert at all because of the high casting temperature. In addition, the titanium material has low value, and is not beneficial to the value of jewelry when being used as a jewelry material.

SUMMERY OF THE UTILITY MODEL

In order to overcome the not enough of prior art, the utility model provides a combination ornament solves above-mentioned traditional problem, and its mode that adopts the combination to be difficult to one shot forming's structure, through the combination of a plurality of parts, utilizes titanium material and other materials to combine, when improving the decorative effect and the value of ornament, can reduce the preparation degree of difficulty and manufacturing cost.

The utility model discloses a following technical scheme realizes:

the combined jewelry comprises combined petals, wherein each combined petal comprises a titanium petal body and an alloy petal tip embedded in the titanium petal body; the titanium petal body is provided with a titanium scarf joint surface, the alloy petal tip is provided with an alloy scarf joint surface which is combined with the titanium scarf joint surface, and the alloy scarf joint surface is of a V-shaped structure; a plurality of inserts are embedded in the surface of the alloy petal tip.

Preferably, the titanium petal body is provided with a plurality of first positioning holes and a plurality of first positioning pins, the alloy petal tip is provided with a plurality of second positioning holes and a plurality of second positioning pins, the first positioning pins are embedded in the second positioning holes, and the second positioning pins are embedded in the first positioning holes.

Preferably, the second positioning hole penetrates through two opposite ends of the alloy petal tip, and the first positioning pin is embedded in the second positioning hole and then firmly combined with the alloy petal tip through a laser welding layer.

Preferably, the alloy petal tip is a K gold petal tip insert or a silver alloy petal tip insert.

Preferably, the insert is a jewel insert, and the jewel insert and the alloy petal tip are integrally formed by wax-inlaid casting.

Preferably, the combined jewelry further comprises bottom titanium petals, titanium lace, a flower core rod and a central noctilucent stone, wherein the bottom titanium petals are located below the combined petals, the titanium lace is located above the combined petals, the top end of the titanium lace is inlaid with the lace noctilucent stone, the flower core rod is connected with the central noctilucent stone in an inserting and embedding manner, and the central noctilucent stone forms a flower-shaped structure with the bottom titanium petals, the combined petals, the titanium lace and the flower core rod.

Preferably, the number of the bottom titanium petals is five, the bottom titanium petals are connected together near the central part, and a bottom positioning assembly hole is formed in the central position of each bottom titanium petal; the number of the combined petals is five, the combined petals are connected together near the central part, and a top layer positioning assembly hole is arranged at the central position; the number of the titanium lace is ten, each titanium lace is connected together near the central part, and a lace positioning assembly hole is arranged at the central position.

Preferably, the core bar is respectively connected with the bottom titanium petal, the combined petal and the titanium flower bud thread through the bottom layer positioning assembly hole, the top layer positioning assembly hole and the bud thread positioning assembly hole.

Preferably, the bottom of the core rod is provided with a support sheet, and the support sheet is arranged below the bottom titanium petals.

Preferably, the combined jewelry further comprises a stainless steel clip embedded with an elastic sheet, and the stainless steel clip is welded on the core bar through laser.

Compared with the prior art, the beneficial effects of the utility model reside in that:

the utility model discloses a combination ornament adopts the mode equipment of combination to form through the combination petal, to the structure that is difficult to one shot forming, through the combination of a plurality of parts, utilizes titanium material and other materials to combine, when improving the decorative effect and the value of ornament, can reduce the preparation degree of difficulty and manufacturing cost.

The utility model discloses a main part material of combination petal adopts the titanium material, utilizes its anodic oxidation to dye and can form abundant bright-colored colour, improves the decorative effect of ornament, simultaneously, adopts K gold or silver-colored alloy as the substrate at some inlayed positions, improves the value of material itself to utilize wax inlay casting process to inlay, improve production efficiency.

Drawings

Fig. 1 is a schematic structural view of a combined jewelry item according to a preferred embodiment of the present invention;

FIG. 2 is a top view of the combination jewelry shown in FIG. 1;

FIG. 3 is an exploded view of the combination jewelry of FIG. 1;

fig. 4 is a partially exploded view of the combination petals shown in fig. 1.

In the figure: 10. a stainless steel cartridge clip; 20. bottom titanium petals; 30. combining the petals; 31. a titanium petal body; 310. titanium scarf joint faying surface; 311. a first locating pin; 32. alloy petal tip; 320. the alloy is embedded and connected with a joint surface; 321. an insert; 322. a second positioning hole; 323. a second positioning pin; 40. titanium lace; 41. lace luminous stones; 50. a core rod; 51. a supporting sheet; 60. a central luminous stone.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments of the present invention are described in detail below with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The invention may be embodied in many other forms different from those described herein and similar modifications may be made by those skilled in the art without departing from the spirit and scope of the invention and, therefore, the invention is not to be limited to the specific embodiments disclosed below.

In the description of the present invention, it is to be understood that the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless explicitly defined otherwise.

In the description of the present invention, it will be understood that when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. In contrast, when an element is referred to as being "directly connected" to another element, there are no intervening elements present.

Referring to fig. 1-4, a combined jewelry of a preferred embodiment of the present invention comprises a stainless steel clip 10, bottom titanium petals 20, top combined petals 30, titanium flower buds 40, flower core rod 50 and central luminous stone 60, all of which are arranged from bottom to top.

Specifically, the stainless steel clip 10 is laser welded on the core rod 50, the stainless steel clip 10 is made of stainless steel, a high-strength elastic sheet (not shown) is embedded in the stainless steel clip, the stainless steel clip is convenient to use, and the elastic sheet has excellent fatigue strength and is durable.

As shown in fig. 2 and 3, the bottom titanium petals 20 are located below the combined petals 30, and the bottom titanium petals 20 are made of pure titanium sheets through pressing. The titanium petals 20 on the bottom layer are bright in color by adopting an anodic oxidation process. In this embodiment, the number of the bottom titanium petals 20 is five, and the bottom titanium petals 20 are connected together near the center and have a bottom positioning assembly hole in the center.

As shown in fig. 4, the combined petals 30 comprise a titanium petal body 31 and alloy petal tips 32 which are embedded in the titanium petal body 31; the titanium petal body 31 is provided with a titanium scarf joint junction surface 310, the alloy petal tip 32 is provided with an alloy scarf joint junction surface 320 which is combined with the titanium scarf joint junction surface 310, and the alloy scarf joint junction surface 320 is of a V-shaped structure; the surface of the alloy petal tip 32 is embedded with a plurality of inserts 321.

The titanium petal body 31 is made of pure titanium sheets through a stamping process, can be bright in color through an anodic oxidation process, and is different from the bottom titanium petal 20 in color, so that the decorative effect is improved. In one embodiment, the titanium petal body 31 has a plurality of first positioning holes and first positioning pins 311, the alloy petal tip 32 has a plurality of second positioning holes 322 and second positioning pins 323, the first positioning pins 311 are embedded in the second positioning holes 322, and the second positioning pins 323 are embedded in the first positioning holes. The second positioning holes 322 penetrate through the two opposite ends of the alloy petal tips 32, and the first positioning pins 311 are embedded in the second positioning holes 322 and then firmly combined with the alloy petal tips 32 through the laser welding layer. In another embodiment, the alloy petal tips 32 are but not limited to K golden petal tip inserts or silver alloy petal tips 32 inserts. The insert 321 is, but not limited to, a jewel insert that is integrally formed with the alloy petal tip 32 by wax-cast molding. Understandably, when the insert 321 is a jewel insert and the alloy petal tips 32 are K gold petal tip inserts, the tip of each top combined petal 30 is provided with a K gold insert, the jewel is embedded on the K gold insert by adopting a wax-inlaid casting process, and the K gold or the insert is polished. And after trimming and correcting the combining surface of the tip end of the petal and the combining surface of the K gold insert, forming a positioning hole on the combining surface of the tip end of the petal, welding a pin on the combining surface of the tip end of the petal by adopting laser welding, and arranging a corresponding positioning pin and a corresponding positioning hole at the position corresponding to the combining surface of the K gold insert. And the pins respectively penetrate through the tip of the petal and the corresponding positioning holes on the K gold insert, and the pin holes on the outer side surface of the K gold insert are subjected to filling welding by laser welding, so that the pins and the K gold insert are firmly welded together.

In this embodiment, the number of the combined petals 30 is five, and the combined petals 30 are connected together near the central portion and provided with a top layer positioning assembly hole at the central position.

As shown in fig. 2 and 3, the titanium lace 40 is positioned above the combined petals 30, the top end of the titanium lace 40 is inlaid with a lace luminous stone 41, the titanium lace 40 is made of a high-elasticity titanium alloy wire, the titanium lace is blanked according to the required length and bent into the required shape by using a clamping fixture, the tail ends of the lace are welded together by argon arc butt welding, and the lace is processed into the color required by design by using an anodic oxidation process. In this embodiment, the number of the titanium lace 40 is ten, and the titanium lace 40 are connected together near the central portion and provided with a lace positioning assembly hole at the central position.

The core bar 50 is connected with the central noctilucent stone 60 in an inserting and embedding way, the core bar 50 is respectively connected with the bottom titanium petal 20, the combined petal 30 and the titanium lace 40 through the bottom layer positioning assembly hole, the top layer positioning assembly hole and the lace positioning assembly hole, and the supporting sheet 51 is arranged below the bottom layer titanium petal 20. Namely, the core bar 50 is used as a connecting mechanism of petals (bottom titanium petals 20 and top combined petals 30) and the titanium lace 40, the bottom of the core bar 50 is provided with a supporting sheet 51, the core bar 50 is firstly assembled and connected with the bottom titanium petals 20 to form firm connection by laser welding, then the top combined petals 30 are assembled and welded together by laser, finally the titanium lace 40 is assembled and welded together by laser, and the welded part is finely trimmed. Therefore, each part forms firm connection without influencing the appearance decoration effect.

The central luminous stone 60, the bottom titanium petals 20, the combined petals 30, the titanium lace 40 and the core bar 50 form a flower-shaped structure. The central luminous stone 60 is inserted and inlaid on the flower core rod 50 by adopting an insertion and inlaying process, and the assembled petals, flower buds and the flower core rod 50 are assembled with the surface of the clip and fixed by laser welding, so that the overall structure of the tie clip is formed.

The utility model discloses a combination ornament adopts the mode equipment of combination to form through combination petal 30, to the structure that is difficult to one shot forming, through the combination of a plurality of parts, utilizes titanium material and other materials to combine, when improving the decorative effect and the value of ornament, can reduce the preparation degree of difficulty and manufacturing cost.

The utility model discloses a combination petal 30's main part material adopts the titanium material, utilizes its anodic oxidation to dye and can form abundant bright-colored colour, improves the decorative effect of ornament, simultaneously, adopts K gold or silver-colored alloy as the substrate at some inlayed positions, improves the value of material itself to utilize wax inlay casting process to inlay, improve production efficiency.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the concept of the present invention, several variations and modifications can be made, which all fall within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. The combined jewelry is characterized by comprising combined petals, wherein the combined petals comprise a titanium petal body and an alloy petal tip embedded in the titanium petal body; the titanium petal body is provided with a titanium scarf joint surface, the alloy petal tip is provided with an alloy scarf joint surface combined with the titanium scarf joint surface, and the alloy scarf joint surface is of a V-shaped structure; a plurality of inserts are embedded in the surface of the alloy petal tip.

2. The piece of combined jewelry of claim 1, wherein the titanium petal body is provided with a plurality of first positioning holes and first positioning pins, the alloy petal tip is provided with a plurality of second positioning holes and second positioning pins, the first positioning pins are embedded in the second positioning holes, and the second positioning pins are embedded in the first positioning holes.

3. The combination jewelry of claim 2, wherein the second positioning holes penetrate through the two opposite ends of the alloy petal tip, and the first positioning pin is embedded in the second positioning holes and then firmly combined with the alloy petal tip through a laser welding layer.

4. The combination jewelry of claim 2, wherein the alloy petal tip is a K gold petal tip insert or a silver alloy petal tip insert.

5. The piece of combination jewelry of claim 1, wherein the piece is a jewel insert, and the jewel insert and the alloy petal tip are integrally formed by wax-insert casting.

6. The combination jewelry of claim 1, further comprising a bottom layer titanium petal, a titanium flower bud thread, a flower core rod and a central luminous stone, wherein the bottom layer titanium petal is located below the combination petal, the titanium flower bud thread is located above the combination petal, the top end of the titanium flower bud thread is inlaid with the flower bud thread luminous stone, the flower core rod is inlaid and connected with the central luminous stone, and the central luminous stone, the bottom layer titanium petal, the combination petal, the titanium flower bud thread and the flower core rod form a flower-shaped structure.

7. The combined jewelry of claim 6, wherein the number of the bottom layer titanium petals is five, and the bottom layer titanium petals are connected together near the central part and are provided with a bottom layer positioning assembly hole in the central position; the number of the combined petals is five, the combined petals are connected together near the central part, and a top layer positioning assembly hole is arranged at the central position; the number of the titanium lace is ten, the titanium lace is connected together near the central part, and a lace positioning assembly hole is arranged at the central position.

8. The combination jewelry of claim 7, wherein the core bar is connected to the bottom titanium petals, the combination petals and the titanium bud thread through the bottom positioning assembly hole, the top positioning assembly hole and the bud thread positioning assembly hole, respectively.

9. The combination jewelry of claim 8, wherein a support plate is arranged at the bottom of the core bar, and the support plate is arranged below the bottom titanium petals.

10. The combination jewelry of claim 6, further comprising a stainless steel clip embedded with a spring plate, wherein the stainless steel clip is laser welded to the core bar.

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