CN219661090U - Gold ornaments's many diamonds mosaic structure - Google Patents

Abstract

The utility model provides a gold ornament multi-diamond mosaic structure, which comprises an ornament body made of 5G gold, wherein the ornament body is provided with at least one plane decoration surface, the decoration surface is provided with a plurality of diamond mosaic positions which are distributed in a matrix and are formed by a engraving machine, and each diamond mosaic position comprises mosaic holes and claws which surround the mosaic Kong Zhouyan; the claw comprises a conical part and a ball top, a clamping groove matched with the waist line of the diamond is formed between the side wall of the conical part and the bottom surface of the ball top, and the side wall of the conical part close to one side of the diamond is attached to the side wall of the diamond; the inlay hole is a conical hole consistent with the cone angle of the bottom of the diamond. The jack catch is by cnc engraving and milling machine forming to including the conical part and the ball top on top of bottom, make the draw-in groove height of each jack catch unanimous completely, in addition diamond bottom surface and conical part and inlay the lateral wall laminating of hole, make each diamond top surface inlay reliably and fix on the coplanar, inlay not only neatly, the light is unanimous, has obviously promoted moreover and has inlayed efficiency and quality.

Description

Gold ornaments's many diamonds mosaic structure

Technical Field

The utility model relates to the technical field of gold ornament processing, in particular to a multi-diamond mosaic structure of gold ornaments.

Background

The diamond is a common form of gold ornaments, taking a matrix distribution of a plurality of broken diamond embedding processes as an example, the traditional gold diamond embedding mode is as follows: forming gold material into an ornament body in a mould pressing mode, wherein the formed ornament body is provided with a plurality of diamond embedding positions distributed in a matrix, and four corners of each diamond embedding position are provided with convex edges protruding out of the surface of the ornament body; when the diamond is inlaid, firstly, the center of the diamond inlaid position is drilled into an inlaid hole, then the diamond is placed in the inlaid hole, then, the convex edge is shoveled up by a tool, so that the gold material on the convex edge moves towards the waist line of the diamond and is piled up, a claw for fixing the diamond is formed, for the adjacent diamond inlaid position, the convex edge is shoveled off from the middle part, the convex edge is divided into two parts, the gold material of each part moves towards the diamond at the same side and is piled up into the claw, and finally, the top end of the claw is shaped into a sphere top by the tool. The conventional drilling process has several problems: 1. the broken drills are distributed in a matrix, each diamond is provided with three to four clamping claws, each clamping claw is formed by manual shoveling and stacking and needs to be shaped, the inlaying process is complex, the fixing heights of the clamping claws on the diamonds are difficult to unify, different fixing angles are formed between the diamonds, and therefore the broken drills distributed in the matrix are attractive due to the influence of unevenness and scattered light. 2. Because the claw of adjacent diamond inlaying position is formed by piling up the rib after being cut off, the rib itself needs to have a certain length to meet the requirement of the claw for gold materials, and the shovel material mode can form two claw with intervals between the adjacent diamond inlaying positions, so that the interval between the adjacent two diamonds is larger, the distribution among the diamonds is more dispersed, compared with the large-size diamonds, the light rays of the diamond are dispersed duller in whole, and the arrayed diamonds are also lack of integrity. 3. Because pure gold is too soft, the diamond is very easy to fall off, the traditional gold diamond is usually made of K gold with higher hardness but lower purity to manufacture the ornament body, or zircon is used for replacing diamond, and the value of the gold diamond ornament is reduced.

Disclosure of Invention

The utility model aims to provide a gold ornament multi-diamond mosaic structure which is simple in mosaic process and good in mosaic consistency of all diamonds.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

the utility model provides a gold ornaments's many diamond mosaic structures, includes the ornaments body of making by 5G gold, ornaments body has at least one and takes the form of plane decorative face, have on the decorative face and take the form of matrix distribution a plurality of diamond inlays the position by engraving machine processing shaping, inlay the position including being used for placing diamond inlay the hole, and around inlaying Kong Zhouyan setting up and vertical protrusion in the jack catch of decorative face; the clamping jaw comprises a conical part at the bottom end and a spherical top at the top end, a clamping groove matched with the waist line of the diamond is formed between the side wall of the conical part and the bottom surface of the spherical top, and the side wall of the conical part close to one side of the diamond is attached to the side wall of the diamond; the mosaic hole is a conical hole consistent with the cone angle of the bottom of the diamond.

Preferably, the clamping jaws between four adjacent embedding holes in the longitudinal and transverse directions are used for fixing the adjacent four diamonds.

In one preferred embodiment, the sidewalls of the insert hole and the conical portion are both bright surfaces.

Preferably, the diamond is a broken diamond.

Preferably, the Vickers hardness of the ornament body is between 80 and 110 HV.

The utility model has the beneficial effects that: 1. the jack catch is by cnc engraving machine forming to including the circular cone portion and the ball top on top of bottom, make the draw-in groove height of each jack catch unanimous completely, in addition diamond bottom surface and circular cone portion and inlay the lateral wall laminating of hole, make each diamond top surface inlay reliably and fix on the coplanar, inlay neatly, go out the light unanimously, saved artificial shovel material moreover, the windrow, technology such as shaping draw-in groove and plastic jack catch, inlay efficiency and quality and obviously promoted. 2. The clamping grooves are formed on the clamping jaw around the circumference, two or four surrounding diamonds can be fixed at the same time, compared with the clamping jaw formed by the traditional shovel stacking mode, the distance between two adjacent diamonds can be very small, and the diamonds can be densely arranged on the surface of the ornament body, so that the diamonds distributed in a matrix form are connected into a region with stronger integrity, and the refracted light is more concentrated and shiny, and can be comparable with the effect of large-size diamonds. 3. The ornament body is made of 5G gold with high purity and hardness, and the inlaid diamond is not easy to fall off, so that a product with higher value than the traditional diamond inlaid ornament can be manufactured.

Drawings

The utility model will now be described in further detail with reference to the drawings and to specific examples.

FIG. 1 is a front view of the overall structure of an embodiment of a diamond-impregnated gold ring;

FIG. 2 is a schematic view of the structure of the assembled veneer without diamond inserts in the embodiment;

FIG. 3 is a schematic view of the structure of the claw in the embodiment;

fig. 4 is a schematic cross-sectional view of a ring according to an embodiment.

Detailed Description

The utility model is further described below with reference to the accompanying drawings:

referring to fig. 1 to 4, the present embodiment is illustrated by taking a diamond-impregnated gold ring as an example, the ring comprises an ornament body 1 made of 5G gold, the ornament body 1 has at least one plane decoration surface 11, the decoration surface 11 is provided with a plurality of diamond-impregnated positions 12 which are distributed in a matrix and are formed by a engraving machine, the diamond-impregnated positions 12 comprise an insert hole 121 for placing a diamond 2, and a claw 122 which is arranged around the periphery of the insert hole 121 and vertically protrudes from the decoration surface 11; the claw 122 comprises a conical part 122a at the bottom end and a spherical top part 122b at the top end, a clamping groove 122c matched with the waist line of the diamond 2 is formed between the side wall of the conical part 122a and the bottom surface of the spherical top part 122b, and the side wall of the conical part 122a near one side of the diamond 2 is attached to the side wall of the diamond 2; the setting hole 121 is a conical hole consistent with the cone angle of the bottom of the diamond 2.

The ornament body 1 is made of 5G gold, the 5G gold is a fifth generation gold product, a certain amount of rare elements, namely hard gold powder, are added in the gold melting process of gold production and processing, the gold molecular structure is more compact through a high-temperature melting furnace, the purity is consistent with that of gold, the hardness is more than four times that of common gold, and the ornament is not only suitable for being processed and molded by an engraving machine, but also can be inlaid with a true diamond without falling off. The claw 122 is formed by engraving and milling machine, and comprises a conical part 122a at the bottom end and a ball top part 122b at the top end, so that the heights of the clamping grooves 122c of the claw 122 are completely consistent, and the bottom surfaces of the diamonds 2 are attached to the conical part 122a and the side walls of the embedding holes 121, so that the top surfaces of the diamonds 2 can be reliably embedded and fixed on the same plane, and not only are the light emergent uniformity of the diamonds 2 more shiny, but also the diamonds are tidier and beautiful. During inlaying, one of the clamping claws 122 of the single diamond inlaying position 12 can be inclined outwards, then the diamond 2 is placed into the inlaying hole 121, the waist line of the diamond 2 simultaneously falls into the clamping grooves 122c of the other clamping claws 122, at the moment, the inclined clamping claws 122 are returned to the correct position, so that the diamond 2 can be reliably fixed, and the other diamond 2 can be sequentially fixed by adopting the method.

In this embodiment, the claws 122 between four adjacent mosaic holes 121 in the longitudinal and transverse directions are used in common to fix four adjacent diamonds 2. The clamping groove 122c is formed on the clamping jaw 122 around the circumference, four surrounding diamonds 2 can be fixed at the same time, compared with the clamping jaw 122 formed by a traditional shovel stacking mode, the distance between adjacent diamonds 2 can be very small, and each diamond 2 can be densely arranged on the surface of the ornament body 1, so that each diamond 2 distributed in a matrix is connected into a region with stronger integrity, and the refracted light is more concentrated and shiny, and can be comparable to the effect of large-size diamonds 2.

In this embodiment, the sidewalls of the insert hole 121 and the conical portion 122a are both bright surfaces formed by engraving and milling. The bottom surface of the diamond 2 is attached to the side walls of the embedding hole 121 and the conical part 122a, so that the structure of the embedded diamond 2 is more reliable, and looseness or skew is avoided; because the ornament body 1 adopts 5G gold, has higher glossiness and can not fade, and the bright surface effect can be processed into through the cnc engraving and milling machine processing mode for the lateral wall of inlay hole 121 forms a conical reflection cup, thereby makes the light that jets out from diamond 2 gather more and luminance is higher, inlays the regional visual effect that forms more bright and bright.

In this embodiment, the diamond 2 is a broken diamond, and the ornamental article body 1 has a vickers hardness of between 80 and 110 HV. Because ornaments body 1 is made by the 5G gold that purity and hardness are higher, and diamond 2 that inlays is difficult to drop, adopts K gold or zircon's mode in comparison current diamond inlaying process, inlays the higher ornaments value of boring.

The above description should not be taken as limiting the scope of the utility model, and any modifications, equivalent variations and modifications made to the above embodiments according to the technical principles of the present utility model still fall within the scope of the technical solutions of the present utility model.

Claims (5)

1. A gold ornaments's many diamond mosaic structures, its characterized in that: the ornament comprises an ornament body made of 5G gold, wherein the ornament body is provided with at least one plane decoration surface, a plurality of diamond embedding positions which are distributed in a matrix and are formed by a fine engraving machine in a machining mode are arranged on the decoration surface, each diamond embedding position comprises an embedding hole for placing a diamond, and clamping claws which are arranged around the diamond embedding Kong Zhouyan and vertically protrude out of the decoration surface; the clamping jaw comprises a conical part at the bottom end and a spherical top at the top end, a clamping groove matched with the waist line of the diamond is formed between the side wall of the conical part and the bottom surface of the spherical top, and the side wall of the conical part close to one side of the diamond is attached to the side wall of the diamond; the mosaic hole is a conical hole consistent with the cone angle of the bottom of the diamond.

2. The gold jewelry multi-diamond mosaic according to claim 1, wherein: the clamping jaws between the four adjacent embedding holes in the longitudinal and transverse directions are used for fixing the four adjacent diamonds.

3. The gold jewelry multi-diamond mosaic according to claim 1, wherein: the side walls of the embedded holes and the conical parts are bright surfaces.

4. The gold jewelry multi-diamond mosaic according to claim 1, wherein: the diamond is broken diamond.

5. The gold jewelry multi-diamond mosaic according to claim 1, wherein: the Vickers hardness of the ornament body is 80-110 HV.