CN212325667U - Ninety-nine diamond with hexagonal star image inside - Google Patents

Abstract

The utility model discloses an inside ninety nine diamonds that present hexagonal star image, include: the pavilion is arranged on the top of the crown part. Wherein the crown comprises 12 crown main facets, 12 triangular crown auxiliary facets located between the table and the crown main facets, and 12 triangular upper waists located between the crown main facets and the waists; the pavilion comprises 12 pavilion main facets, 24 lower waist surfaces and 8 lower waist modification surfaces at the junction of the pavilion main facets, and 12 triangular pavilion auxiliary surfaces and 6 quadrangular pavilion auxiliary surfaces below the pavilion main facets; and the total number of the surfaces is 99. The utility model discloses a cut into 99 faces with the diamond according to a certain proportion for the flashing (science), the light (Brilliance) and the Fire color (Fire) of three key elements of diamond brilliant rays all reach the best effect.

Description

Ninety-nine diamond with hexagonal star image inside

Technical Field

The utility model relates to a diamond, in particular to a ninety-nine diamond with a hexagon arrow image inside.

Background

The diamond is very popular among people due to its rare and precious characteristics, good quality and bright light. The diamond has no brilliance and has no soul, and in order to make the diamond bloom with more brilliance, the diamond cutter is a product combining the development of science and technology and human intelligence and must depend on human factors. Although the diamond was recognized as early as the 4 th century before the Gongyuan, significant improvements in diamond cutting and polishing technology and the tremendous richness of cut patterns have been developed in recent decades. The diamond can only show the high brightness and strong fire color generated by the unique physical properties through processing, and the brilliant beauty of the diamond is shown. Clearly, optimal optical results are one of the goals pursued by modern diamond design and diamond cutting.

Diamond 4C is a measure of the quality of a diamond. Diamond 4C, the abbreviation for 4 english words beginning with C, refers to the Carat weight (Carat), Color (Color), Clarity (Clarity), and Cut (Cut) of the diamond. Many enterprises only attach importance to the weight of the diamond, not the brilliance of the diamond. The most important factor for obtaining the maximum brilliance of diamond is the cutting ratio of diamond, and if the cutting ratio is right, the diamond is bright and dazzling, otherwise, the diamond is dark and discolored.

However, the traditional diamond has only 58 sections, which not only has insufficient brilliance, but also does not show any special shape from the inside of the diamond, and thus the appearance of the diamond is not novel.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the present invention is to provide a ninety-nine diamonds having better optical effect and showing a hexagram inside.

The technical scheme adopted by the utility model for solving the technical problems is that a ninety-nine-face diamond with a hexagonal star image inside is designed and manufactured, the diamond comprises a crown part above the waist and a pavilion part below the waist, and the crown part is provided with a table top at the crown top; the facets on the pavilion include: a pavilion main facet, a lower waist surface and a lower waist modification surface which are positioned between the pavilion main facet and the waist, a quadrangular pavilion auxiliary surface and a triangular pavilion auxiliary surface which are positioned below the pavilion main facet,

the facets on the crown include: a crown main facet, a triangular crown auxiliary facet located between the periphery of the table and the crown main facet, and an upper girdle facet located between the crown main facet and the girdle; the main facets of the crown part are quadrilateral, the upper waist surface is a trilateral surrounded by two straight lines and an arc line, one upper waist surface and one triangular crown part auxiliary facet are arranged between two adjacent main facets of the crown part, and the two adjacent main facets of the crown part and the upper waist surface and the triangular crown part auxiliary facet between the two adjacent main facets of the crown part intersect at the same endpoint;

a pair of lower waist surfaces which are bilaterally symmetrically connected is arranged between two adjacent pavilion main facets, the lower waist modification surface is positioned between the waist and a certain pair of lower waist surfaces which are connected, and a triangular pavilion auxiliary surface is respectively arranged at the left side and the right side of each quadrilateral pavilion auxiliary surface.

As a further aspect of the present invention: 1 table top, 12 main crown facets, 12 auxiliary triangular crown facets and 12 upper waist surfaces; the pavilion main facets are 12, the lower waist surfaces are 24, the lower waist modification surfaces are 8, the quadrilateral pavilion auxiliary surfaces are 6, and the triangular pavilion auxiliary surfaces are 12; and the total number of the surfaces is 99.

In order to ensure that the diamond can present a perfect hexagram, the ratio between the length of the widest part of the table top and the diameter of the waist is 51-57%, the height of the crown is 14-16.5% of the diameter of the waist, the thickness of the waist is 3-4.5% of the diameter of the waist, and the height of the pavilion is 45-47% of the diameter of the waist.

The crown part is in a frustum shape, and the pavilion part is an inverted cone with a large upper part and a small lower part.

Preferably, the angle a between the main facets of the crown and the mesa is between 33.0 ° and 35.5 °.

Preferably, the angle b between the triangular crown auxiliary facet and the mesa is between 25.0 ° and 29.0 °.

Preferably, the included angle c between the upper waist surface and the table-board is 39.5-42.0 degrees.

Preferably, the angle d between said pavilion main facets and the table is 40.5 ° to 41.5 °.

Preferably, the angle e between the pavilion lower girdle surface and the table surface is 41.8 to 42.8 °.

Preferably, the included angle f between the lower waist finishing surface and the table top is 45.0-47.0 degrees.

Preferably, an angle g between the quadrangular pavilion auxiliary surface and the table surface is 36.8 ° to 37.8 °.

Preferably, an angle h between the triangular pavilion auxiliary surface and the table surface is 37.5 ° to 38.5 °.

Compared with the prior art, the utility model discloses the effect of bringing is: the utility model discloses the diamond cuts into 99 faces according to a certain proportion, than 58 a diamond a plurality of 41 tangent planes of tradition, can observe the hexagram phenomenon under professional car worker's mirror, observes the image that can obviously see the hexagram from the diamond top promptly. According to the optical principle, the more the diamond section is, the stronger the reflected light is, and the more shining the light is. The diamond table has reasonable section shape and structure design, and the ingenious design of the size, the angle and the symmetry of each section can refract and reflect the light rays which are emitted into the diamond to the maximum extent, so that the diamond table has the best effect on the light rays, the flash light, the bright light and the fire color. In addition, ninety-nine diamonds of the utility model can observe complete hexagram images under a professional cutting mirror, namely, perfect hexagram images can be obviously seen from the observation of the top of the diamond.

Drawings

FIG. 1 is a vertical cross-section of a ninety-nine diamond of the present invention;

FIG. 2 is a front view of the ninety-nine diamonds of the present invention;

FIG. 3 is a top view of the appearance structure of ninety-nine diamonds according to the present invention;

fig. 4 is a bottom view of the appearance structure of ninety-nine diamonds according to the present invention.

In the above figures: 1-table top, 2-girdle, 3-crown main facet, 4-triangular crown auxiliary facet, 5-upper girdle facet, 6-pavilion main facet, 7-lower girdle facet, 8-lower girdle modified facet, 9-quadrangular pavilion auxiliary facet, 10-triangular pavilion auxiliary facet, 20-crown, 30-pavilion.

Detailed Description

The present invention will be described in more detail with reference to the embodiments shown in the drawings.

As shown in fig. 1, the ninety-nine diamonds of the present invention, which internally display a hexagram, comprise: a middle girdle 2, a crown 20 located above the girdle 2, and a pavilion 30 located below the girdle 2. The crown 20 is a frustum, the table top 1 is provided on the crown top, and the pavilion 30 is a reverse taper with a large top and a small bottom.

As shown in fig. 2 and 3, the facets on the crown 20 include: a main crown facet 3, a triangular auxiliary crown facet 4 and an upper girdle facet 5. Wherein: the crown main facets 3 are in a quadrilateral shape with bilateral symmetry, and a plurality of crown main facets 3 are uniformly arranged along the circumferential direction. The triangular crown auxiliary facet 4 is a bilaterally symmetrical inverted triangle and is positioned between the periphery of the table top 1 and the pair of crown main facets 3, and the triangular crown auxiliary facet 4 and the crown main facets 3 are arranged at intervals along the circumferential direction of the crown 20. The upper waist surface 5 is in a shape of a triangle which is formed by a left straight line, a right straight line and a bottom arc line (namely, a certain section in the periphery of the waist part 2) in a bilateral symmetry way, the upper waist surface 5 is arranged between two adjacent crown main facets 3 and the waist part 2, the upper waist surface 5 and the crown main facets 3 are arranged at intervals along the circumferential direction of the crown part 20, and the two adjacent crown main facets 3, the upper waist surface 5 between the two adjacent crown main facets and the triangular crown auxiliary facet 4 are intersected at the same endpoint.

As shown in fig. 2 and 4, the facets on the pavilion 30 include: a pavilion main facet 6, a lower girdle facet 7, a lower girdle modification facet 8, a quadrangular pavilion auxiliary facet 9, and a triangular pavilion auxiliary facet 10. Wherein: the pavilion main facets 6 are elemi-shaped quadrangles, the pavilion main facets 6 are uniformly arranged along the circumferential direction, a corner on one side of one pavilion main facet 6 is connected with a corner of the adjacent pavilion main facet 6, the other side of the pavilion main facet shares the same edge with the adjacent pavilion main facet 6, and the two adjacent pavilion main facets 6 are symmetrical left and right. A pair of lower waist surfaces 7 which are connected in a bilateral symmetry mode is arranged between the upper part of the junction of every two adjacent pavilion main facets 6 and the girdle 2. The lower waist finishing surface 8 is substantially triangular and is located between the waist portion 2 and a pair of connected lower waist surfaces 7. The quadrangular pavilion auxiliary surfaces 9 and the triangular pavilion auxiliary surfaces 10 are positioned below the pavilion main facets 6, the two triangular pavilion auxiliary surfaces 10 are symmetrically arranged at the left side and the right side of each quadrangular pavilion auxiliary surface 9, so that a group of pavilion auxiliary surfaces are formed, and the plurality of groups of pavilion auxiliary surfaces are uniformly arranged along the circumferential direction.

In this embodiment, there are 1 table facet 1, 12 crown main facets 3, 12 triangular crown auxiliary facets 4, and 12 upper waist facets 5; the pavilion main facets 6 are 12, the lower waist surfaces 7 are 24, the lower waist modification surfaces 8 are 8, the quadrangular pavilion auxiliary surfaces 9 are 6, and the triangular pavilion auxiliary surfaces 10 are 12; and the total number of the surfaces is 99. Generally, each diamond has a girdle, and thus the waists of the diamonds of the present invention are not counted in a total of ninety-nine faces.

In order to ensure that the diamond can present a perfect hexagram, the ratio between the length L of the widest part of the table top 1 and the diameter of the waist 2 is 51-57%, the height of the crown part 20 is 14-16.5% of the diameter of the waist 2, the thickness of the waist 2 is 3-4.5% of the diameter of the waist 2, and the height of the pavilion part 30 is 45-47% of the diameter of the waist 2.

In order to achieve a better optical effect, an included angle a between the crown main facet 3 and the table board 1 is 33.0-35.5 °, an included angle b between the triangular crown auxiliary facet 4 and the table board 1 is 25.0-29 °, an included angle c between the upper waist surface 5 and the table board 1 is 39.5-42.0 °, an included angle d between the pavilion main facet 6 and the table board 1 is 40.5-41.5 °, an included angle e between the pavilion lower waist surface 7 and the table board 1 is 41.8-42.8 °, an included angle f between the lower waist modified surface 8 and the table board 1 is 45.0-47.0 °, an included angle g between the pavilion auxiliary surface 9 and the table board 1 is 36.8-37.8 °, and an included angle h between the triangular pavilion auxiliary surface 10 and the table board 1 is 37.5-38.5 °.

In one embodiment, the ratio between the length L of the table top 1 at its widest point and the diameter of the girdle 2 is 55%, the height of the crown 20 is 15% of the diameter of the girdle 2, the thickness of the girdle 2 is 4% of the diameter of the girdle 2, and the height of the pavilion 30 is 46% of the diameter of the girdle 2. The angle a is 34 °, the angle b is 27 °, the angle c is 41 °, the angle d is 41 °, the angle e is 42 °, the angle f is 46 °, the angle g is 37 °, and the angle h is 38 °.

The ninety-nine diamonds of the utility model can obviously see the image of the hexagons from the observation of the top of the diamond, can refract and reflect the light which enters the diamond to the maximum extent, presents a colorful brilliant light, and leads the optical three-element flash (science), bright light (Brilliance) and Fire (Fire) of the diamond to achieve the best effect.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (12)

1. A ninety-nine face diamond presenting a hexagonal star image inside, comprising a crown (20) above a girdle (2) and a pavilion (30) below the girdle (2), the crown (20) having a table top (1) at the crown top; the facets on the pavilion (30) include: a pavilion main facet (6), a lower girdle surface (7) and a lower girdle modifying surface (8) which are positioned between the pavilion main facet (6) and the girdle (2), a quadrangular pavilion auxiliary surface (9) and a triangular pavilion auxiliary surface (10) which are positioned below the pavilion main facet (6),

the facets on the crown (20) include: a main crown facet (3), an auxiliary triangular crown facet (4) located between the periphery of the table (1) and the main crown facet (3), and an upper waist surface (5) located between the main crown facet (3) and the waist (2); the main crown facets (3) are quadrilateral, the upper waist surface (5) is a trilateral shape enclosed by two straight lines and an arc line, one upper waist surface (5) and one triangular crown auxiliary facet (4) are arranged between two adjacent main crown facets (3), and the two adjacent main crown facets (3) and the upper waist surface (5) and the triangular crown auxiliary facet (4) between the two adjacent main crown facets intersect at the same end point;

a pair of lower waist surfaces (7) which are connected in a bilateral symmetry way is arranged between two adjacent pavilion main facets (6), the lower waist modification surface (8) is positioned between the waist part (2) and a certain pair of lower waist surfaces (7) which are connected, and a triangular pavilion auxiliary surface (10) is respectively arranged at the left side and the right side of each quadrangular pavilion auxiliary surface (9).

2. The ninety-nine diamond according to claim 1 with a hexagram inside, wherein: 1 table top (1), 12 main facets (3) of the crown, 12 auxiliary facets (4) of the triangular crown and 12 upper waist surfaces (5); the pavilion main facets (6) are 12, the lower waist surfaces (7) are 24, the lower waist modification surfaces (8) are 8, the quadrangular pavilion auxiliary surfaces (9) are 6, and the triangular pavilion auxiliary surfaces (10) are 12; and the total number of the surfaces is 99.

3. The ninety-nine diamond according to claim 1 with a hexagram inside, wherein: the ratio of the length of the widest part of the table top (1) to the diameter of the waist part (2) is 51-57%, the height of the crown part (20) is 14-16.5% of the diameter of the waist part (2), the thickness of the waist part (2) is 3-4.5% of the diameter of the waist part (2), and the height of the pavilion part (30) is 45-47% of the diameter of the pavilion part (2).

4. The ninety-nine diamond according to claim 1 with a hexagram inside, wherein: the crown part (20) is in a frustum shape, and the pavilion part (30) is in a reverse taper shape with a large upper part and a small lower part.

5. The ninety-nine diamond according to any one of claims 1 to 4 having a hexagram inside thereof, wherein: the included angle a between the main facet (3) of the crown part and the table board (1) is 33.0-35.5 degrees.

6. The ninety-nine diamond according to any one of claims 1 to 4 having a hexagram inside thereof, wherein: the included angle b between the auxiliary facet (4) of the triangular crown part and the table board (1) is 25.0-29.0 degrees.

7. The ninety-nine diamond according to any one of claims 1 to 4 having a hexagram inside thereof, wherein: the included angle c between the upper waist surface (5) and the table board (1) is 39.5-42.0 degrees.

8. The ninety-nine diamond according to any one of claims 1 to 4 having a hexagram inside thereof, wherein: the included angle d between the pavilion main facet (6) and the table surface (1) is 40.5-41.5 degrees.

9. The ninety-nine diamond according to any one of claims 1 to 4 having a hexagram inside thereof, wherein: the included angle e between the lower waist surface (7) of the pavilion and the table board (1) is 41.8-42.8 degrees.

10. The ninety-nine diamond according to any one of claims 1 to 4 having a hexagram inside thereof, wherein: the included angle f between the lower waist finishing surface (8) and the table board (1) is 45.0-47.0 degrees.

11. The ninety-nine diamond according to any one of claims 1 to 4 having a hexagram inside thereof, wherein: the included angle g between the quadrangular pavilion auxiliary surface (9) and the table surface (1) is 36.8-37.8 degrees.

12. The ninety-nine diamond according to any one of claims 1 to 4 having a hexagram inside thereof, wherein: the included angle h between the triangular pavilion auxiliary surface (10) and the table surface (1) is 37.5-38.5 degrees.

Images