CN220403319U - Inlay base and diamond ring - Google Patents

Abstract

The utility model provides a mosaic base, which is suitable for the jewelry field and is provided with a dividing line for dividing the upper surface of the mosaic base into an inner diamond piece and an outer diamond piece, wherein the outline of a diamond is matched with the dividing line, so that when the mosaic base is inlaid with a heart-shaped diamond, if the heart-shaped diamond and the mosaic base have larger deviation, the inner diamond piece can reflect light to simulate the reflection of the diamond to light, thereby generating visual misguidance, enabling a viewer to mistakenly consider the dividing line as the real boundary of the heart-shaped diamond, and improving the productivity of diamond rings without adjusting the mosaic base according to the shape of the diamond.

Description

Inlay base and diamond ring

Technical Field

The application belongs to the ornament field, especially relates to a inlay base and diamond ring.

Background

With the richness of the material life of people, the enthusiasm of jewelry consumption is increased, the market scale of jewelry is increased year by year, the consumer's knowledge of jewelry is also getting deep, the acceptance degree and the consumption preference of special-shaped diamonds show obvious rising trend, and the heart-shaped diamonds in the special-shaped diamonds are higher in popularity.

However, even if the heart-shaped diamond with the same length and width specifications is used, the outer contour radians of the heart-shaped diamond are different, if the heart-shaped diamond is inlaid by using the same inlaid base, the outer contour radians of the different heart-shaped diamonds are greatly deviated from the inlaid base, metal edges on the inlaid base are extremely exposed, and even gaps are generated, and the inlaid base needs to be adjusted according to the shape of the diamond, so that the productivity is low.

Disclosure of Invention

Accordingly, the present utility model is directed to a diamond ring and a diamond ring, which are designed to solve the technical problems that if the same diamond ring is used, the outer curvature of the diamond ring is greatly deviated from the diamond ring, and the metal edge on the diamond ring is easily exposed, even a gap is generated, and the diamond ring is required to be adjusted according to the shape of the diamond ring, resulting in low productivity.

The utility model provides a mosaic base which is used for mosaic of diamonds, wherein the mosaic base is provided with a dividing line for dividing the upper surface of the mosaic base into an inner embossing sheet and an outer embossing sheet, an inclined plane on the inner embossing sheet extends from bottom to top to the dividing line from the inner contour line of the inner embossing sheet, an inclined plane on the outer embossing sheet extends from bottom to top to the dividing line from the outer contour line of the outer embossing sheet, and the contour line of the diamond is matched with the dividing line.

Optionally, the dividing line is a heart-shaped structure.

Optionally, a plurality of inlaying claws are arranged on the inlaying base along the dividing line, and the diamond is inlaid between the plurality of inlaying claws so as to be fixed on the inlaying base.

Optionally, the first mosaic claw and the second mosaic claw are included, the diamond has two top arc ends and a bottom tip, two top arc ends respectively with two first mosaic claws butt, the bottom tip with the second mosaic claw butt.

Optionally, when the mosaic base is placed horizontally, the horizontal cross section of the first mosaic claw is a D-shaped structure, and the first mosaic claw has a linear section extending linearly and an arc section connecting two ends of the linear section, the linear section is abutted to the diamond, and the arc section is located on the other side of the first mosaic claw opposite to the diamond.

Optionally, the horizontal section of the second inlay claw is a heart-shaped structure.

Optionally, the top of the inlaid claw is in a car flower structure.

Optionally, an included angle between the oblique line of the outer turning pattern on the longitudinal section and the vertical direction is a first inclined angle, and the crown angles of the first inclined angle and the diamond on the same longitudinal section are complementary angles.

Optionally, the inclined line of the inner turning piece on the longitudinal section and the included angle of the vertical direction are second inclined angles, and the second inclined angles and pavilion angles of the diamond on the same longitudinal section are complementary angles.

The utility model also provides a diamond ring, which comprises the embedded base.

The utility model provides a mosaic base, which is provided with a dividing line for dividing the upper surface of the mosaic base into an inner diamond piece and an outer diamond piece, wherein the outline of a diamond is matched with the dividing line, so that when the mosaic base is inlaid with a heart-shaped diamond, if the heart-shaped diamond and the mosaic base have larger deviation, the inner diamond piece can reflect light to simulate the reflection of the diamond to light, thereby generating visual misguidance, leading a boundary to be mistaken as the real boundary of the heart-shaped diamond by a viewer, and improving the productivity of a diamond ring without adjusting the mosaic base according to the shape of the diamond.

Reference numerals illustrate: 2. a diamond; 23. crown angle; 24. pavilion angle; 21. a bottom tip; 22. a top arc end; 10. embedding claws; 101. a first inlay claw; 102. a second inlay claw; 11. inner turning flower pieces; 11A, a first tilt angle; 11B, inner contour; 12. outer turning flower pieces; 12A, a second inclination angle; 12B, outer contour; 13. demarcation line.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a top view of a damascene base provided in an embodiment of the present application;

FIG. 2 is a cross-sectional view taken along the direction A-A in FIG. 1;

FIG. 3 is a top view of a heart-shaped diamond according to an embodiment of the present disclosure embedded in an embedded base;

FIG. 4 is a side view of a cardioid diamond provided in an embodiment of the present application;

FIG. 5 is a top view of a cardioid diamond according to an embodiment of the present application;

FIG. 6 is a perspective view of a heart-shaped diamond according to an embodiment of the present application embedded in an embedded base;

fig. 7 is a perspective view of an inner embossed sheet according to an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application will be further described in detail with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the present application.

In the description of the present application, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

It should be further noted that terms such as left, right, upper, and lower in the embodiments of the present application are merely relative terms or references to normal use states of the product, and should not be construed as limiting.

Referring to fig. 1 and 2, the present utility model provides a diamond 2 with a dividing line 13 dividing the top surface of the diamond into an inner tile 11 and an outer tile 12, wherein the inclined surface of the inner tile 11 extends from the inner contour line 11B of the inner tile 11 to the dividing line 13 from bottom to top, the inclined surface of the outer tile 12 extends from the outer contour line 12B of the outer tile 12 to the dividing line 13 from bottom to top, and the contour line of the diamond 2 matches with the dividing line 13.

Referring to fig. 4 and 5, in one possible embodiment, the dividing line 13 has a heart-shaped structure. It is well known that shaped diamond is difficult to unify in shape compared to round diamond, resulting in difficulty in mass production. Heart-shaped diamonds among shaped diamonds are highly popular. However, because the outer outline radian of the heart-shaped diamond is not uniform, the diamond with the same length and width specifications in the same batch is difficult to inlay by the same standard inlay base due to the use of the traditional inlay base, the side metal edge is extremely easy to expose, even gaps are generated, the product quality problem is caused, and the customer complaint problem is further induced.

In the present application, the inner embossed sheet 11 and the outer embossed sheet 12 are embossed sheet structures. Referring to fig. 2 and 7, the inner cut pieces 11 are integrally formed to be inclined inwardly, the outer cut pieces 12 are integrally formed to be inclined outwardly, and the dividing line 13 between the inner cut pieces 11 and the outer cut pieces 12 is formed to be a standard heart shape and a shape slightly larger than a heart-shaped gemstone shape to which the base is applied. As can be seen from fig. 3, when the gemstone is set, there is a slight distinction between the shape of the dividing line 13 and the diamond 2, and the portion of the inner stone chip 11 not covered by the diamond 2 is exposed. The reflection of the exposed inner car flower 11 simulates the reflection of the diamond 2 to light, thereby generating visual misguidance, leading the boundary line 13 to be mistaken as the true boundary of the heart-shaped diamond by a viewer, masking the inherent outline defect problem of the heart-shaped diamond by utilizing the visual error, and leading the product to present full and beautiful visual effect. The standard size embedded base can be further suitable for more diamond 2, convenient conditions are created for large-scale production, the rejection rate of heart-shaped diamond bare stones is reduced, the cost is reduced from two angles of reducing material loss and simplifying the process, and conditions are created for providing high-quality and low-cost products for consumers.

In addition, the outer turning piece 12 simulates the reflection and fire color of the diamond 2, visually enlarges the size of the diamond 2, and has the effect of enlarging the diamond 2. The outer flower 12 is of a three-dimensional structure, and the layering sense is prominent, so that the diamond 2 and the outer flower 12 are alternately highlighted. Since the outer turning pattern 12 is CNC machined according to the shape of the diamond 2, the transition between the outer turning pattern 12 and the heart-shaped diamond is not Chang Shunhua, which is true and false.

Referring to fig. 1 and 6, in one possible embodiment, a plurality of setting claws 10 are provided on the setting base along the dividing line 13, and the diamond 2 is set between the plurality of setting claws 10 to be fixed on the setting base. The number of the inlaying claws 10 is plural, the edge of the diamond 2 is abutted against the inlaying claws 10, and the diamond 2 is fixed on the inlaying seat by the clamping force among the plurality of the inlaying claws 10. In the present embodiment, in order to better fix the heart-shaped diamond on the setting base, the number of setting claws 10 is three. The three inlaid claws 10 form a triangular structure, which is matched with the shape of the heart-shaped diamond, and the heart-shaped diamond is fixed by arranging a small number of inlaid claws 10, so that the stability is high. The number of the inlay claws 10 can be set by those skilled in the art according to the specific application of the inlay base, and is not particularly limited herein.

Specifically, the setting jaw 10 includes two first setting jaws 101 and one second setting jaw 102, the diamond 2 has two top arc ends 22 and one bottom tip 21, the two top arc ends 22 are respectively abutted against the two first setting jaws 101, and the bottom tip 21 is abutted against the second setting jaw 102. The outline of the heart-shaped diamond is composed of a left outline and a right outline which are symmetrical to each other, the left outline and the right outline are arc lines, and two ends of the left outline and the right outline are connected with each other. One end of which is connected to form an outwardly convex bottom tip 21 and the other end is connected to form an inwardly concave top tip. One point is selected as a top arc end 22 at the upper part of the left contour line, which is close to the top tip, another point is selected as another top arc end 22 at the upper part of the right contour line, which is close to the top tip, and a connecting line between the top arc end 22 and one bottom tip 21 is formed into an equilateral triangle, which is matched with the shape of the heart-shaped diamond, and the heart-shaped diamond is fixed by arranging a small number of inlaid claws 10, so that compared with other triangle structures, the stress of the heart-shaped diamond is more balanced and the stability is higher.

Referring to fig. 1 and 3, in a possible embodiment, when the inlay base is horizontally placed, the horizontal section of the first inlay claw 101 has a D-shaped structure, which has a linear section extending linearly and an arc section connecting two ends of the linear section, the linear section is abutted to the diamond 2, and the arc section is located on the other side of the first inlay claw 101 opposite to the diamond 2. In this embodiment, the arc line and the outline of the heart-shaped diamond are the same arc line, so that the outline defect problem of the inlaying claw 10 is covered by using the visual error, and the aim of hiding the inlaying claw 10 is achieved.

In one possible embodiment, the second inlay finger 102 has a heart-shaped structure in horizontal cross section. In this embodiment, the second inlay claw 102 adopts a heart-shaped structure, and is similar to the shape of the overall outline of a heart-shaped diamond, so that the outline defect problem of the inlay claw 10 is covered by using a visual error, and the purpose of hiding the inlay claw 10 is further achieved.

Referring to fig. 1 and 3, in one possible embodiment, the top of the inlay claw 10 is in a pattern plate structure. Specifically, the top of the claw 10 is carved with a plurality of facets similar to the facets of the diamond 2, and the facets at the positions simulate the reflection of the light rays of the diamond 2 when the claw is in use, so that the purpose of hiding the claw 10 is achieved. The inlay claw 10 combines the outer car flower piece 12 and the inner car flower piece 11, has the visual effect that will inlay base and diamond 2 to fuse together, reaches the multi-angle and shows big effect with precious stone diamond 2, and the multiple standard of weight, the clarity degree, fire color (cutting) of the diamond 2 that the vision promotes simultaneously, promotes the sexual valence relative altitude, brings better user experience.

Referring to fig. 2 and 4, in a possible embodiment, an inclined line of the outer turning piece 12 in a longitudinal section and a vertical direction form a first inclined angle 11A, and the first inclined angle 11A and a crown angle 23 of the diamond 2 in the same longitudinal section form complementary angles. The inclined surface on the outer turning flower 12 is of a three-dimensional triangular prism surface structure, the continuous folded surface formed by the three-dimensional triangular prism surfaces is a reflecting surface, and the arrangement mode corresponds to the faceting of the diamond 2. Because the outline of the heart-shaped diamond is irregular heart-shaped, the distance between the outer edge and the bottom tip is different, that is, the crown angle 23 of the heart-shaped diamond is not constant, the crown angle 23 of the heart-shaped diamond has angle difference at different positions, the included angle between the inclined surface of the outer turning pattern 12 and the vertical direction is also changed, and the first inclined angle 11A and the crown angle 23 need to be maintained to be complementary. By the arrangement, visual errors can be utilized to the greatest extent by the inlaid base, reflection of the diamond 2 is simulated, and visual effects of the diamond 2 are enlarged.

Referring to fig. 2 and 4, in a possible embodiment, the inclined line of the inner piece 11 in the longitudinal section and the vertical direction form a second inclined angle 12A, and the second inclined angle 12A and the pavilion angle 24 of the diamond 2 in the same longitudinal section are complementary angles. Similarly, the inclined surface on the inner turning flower piece 11 is of a three-dimensional triangular prism surface structure, the continuous folded surface formed by the three-dimensional triangular prism surfaces is a reflecting surface, and the arrangement mode corresponds to the faceting of the diamond 2. Since the outline of the heart-shaped diamond is irregularly heart-shaped, the distance between the outer edge and the bottom tip is also different, that is, the pavilion angle 24 of the heart-shaped diamond is also not constant, the pavilion angle 24 of the heart-shaped diamond has angle difference at different positions, the included angle between the inclined surface of the inner turning piece 11 and the vertical direction is also changed, and the second inclined angle 12A and the pavilion angle 24 need to be maintained to be the complementary angle. By the arrangement, the inlaid base can be matched with the heart-shaped diamond, and the visual misleading effect is better.

Specifically, the angle of the first inclination angle 11A is 34 ° to 47 °, and the angle of the second inclination angle 12A is 44 ° to 50 °. Since the outline of the cardioid diamond is irregularly cardioid, crown angle 23 and pavilion angle 24 are not constant, and accordingly, first tilt angle 11A and second tilt angle 12A are not constant. By combining the design of diamond 2 in letter D shape, the crown angle 23 is 43-46 degrees through multiple experiments, and has ideal brightness and fire color. The crown angle 23 of the crown 1 may be specifically set to 43.0 °, 44 °, 45 °, 46 °, etc. according to actual needs by those skilled in the art, and is not limited thereto. Since the first inclination angle 11A and the crown angle 23 are complementary, the first inclination angle 11A may be designed correspondingly according to the angle of the crown angle 23. Through multiple experiments, pavilion angle 24 of the heart-shaped diamond is 40-46 degrees, and the heart-shaped diamond has ideal brightness and fire color. Those skilled in the art may specifically set the pavilion angle 24 to 41 °, 42 °, 43 °, 44 °, 45 °, 46 ° and the like according to actual needs, and is not limited thereto. Since the second inclination angle 12A and the pavilion angle 24 are complementary, the second inclination angle 12A is designed correspondingly according to the angle of the pavilion angle 24.

The application also provides a diamond ring, which comprises any one of the mosaic bases.

The foregoing description of the preferred embodiments of the present application is not intended to be limiting, but is intended to cover any and all modifications, equivalents, or alternatives falling within the spirit and principles of the present application.

Claims (10)

1. A mosaic base for inlaying a diamond (2), characterized in that the mosaic base is provided with a dividing line (13) for dividing the upper surface of the mosaic base into an inner embossing sheet (11) and an outer embossing sheet (12), wherein an inclined surface on the inner embossing sheet (11) extends from bottom to top from an inner contour line (11B) of the inner embossing sheet (11) to the dividing line (13), an inclined surface on the outer embossing sheet (12) extends from bottom to top from an outer contour line (12B) of the outer embossing sheet (12) to the dividing line (13), and the contour line of the diamond (2) is matched with the dividing line (13).

2. A mosaic substrate according to claim 1, wherein said dividing line (13) is a heart-shaped structure.

3. A mosaic substrate according to claim 1, wherein a plurality of mosaic claws (10) are provided on said mosaic substrate along said dividing line (13), and said diamond (2) is fitted between a plurality of said mosaic claws (10) to be fixed to said mosaic substrate.

4. A mosaic base according to claim 3, wherein said mosaic jaw (10) comprises two first mosaic jaws (101) and one second mosaic jaw (102), said diamond (2) having two top arc ends (22) and one bottom tip (21), two of said top arc ends (22) being respectively in abutment with two of said first mosaic jaws (101), said bottom tip (21) being in abutment with said second mosaic jaw (102).

5. A mosaic base according to claim 4, wherein when said mosaic base is placed horizontally, the horizontal cross section of said first mosaic jaw (101) has a D-shaped structure having a linear section extending linearly and an arc section connecting both ends of said linear section, said linear section being in abutment with said diamond (2), said arc section being located on the other side of said first mosaic jaw (101) opposite to said diamond (2).

6. The inlay pedestal as claimed in claim 4, characterized in that the horizontal section of the second inlay claw (102) is of heart-shaped structure.

7. A mosaic substrate according to claim 3, wherein the top of said mosaic pawl (10) is a car flower structure.

8. The mosaic base according to claim 1, wherein the inclined line of the outer piece (12) in the longitudinal section forms a first inclination angle (11A) with the vertical direction, and the crown angle (23) of the first inclination angle (11A) and the diamond (2) in the same longitudinal section form a complementary angle.

9. The mosaic base according to claim 1, wherein the inclined line of the inner piece (11) in the longitudinal section forms a second inclined angle (12A) with the vertical direction, and the second inclined angle (12A) forms a complementary angle with the pavilion angle (24) of the diamond (2) in the same longitudinal section.

10. A diamond ring comprising a mosaic substrate according to any one of claims 1 to 9.