RU2003104893A

RU2003104893A - DESIGN OF A DIAMOND REDUCTION, PROVIDING MANY VISUALLY PERCEPTED REFLECTED RAYS FOR DECORATIVE USE AND METHOD FOR ITS EVALUATION

Info

Publication number: RU2003104893A
Application number: RU2003104893/12A
Authority: RU
Inventors: Йосинори КАВАБУТИ; Тамоцу МАЦУМУРА
Original assignee: Хохоеми Брэйнз, Инк.
Priority date: 2002-02-19
Filing date: 2003-02-18
Publication date: 2004-08-27

Claims

1. The design of a round diamond cut of a decorative diamond, providing many visually perceptible reflected rays, containing essentially a round or polygonal girdle having an upper horizontal section and a lower horizontal section parallel to the upper horizontal section, a crown above the upper horizontal section of the girdle, having a facet of the site and at least one main facet of the crown, and a pavilion under the lower horizontal section of the girdle, having at least one main facet pavilion, while the height (h) of the girdle between the upper and lower horizontal sections of the girdle is from 0.026 to 0.3 with respect to the radius of the girdle, the angle (p) of the pavilion between the main facet of the pavilion and the lower horizontal section of the girdle is in the range of 37.5 up to 41 °, and the angle (s) of the crown between the main facet of the crown and the upper horizontal section of the girdle is within the limits satisfying the relations

c> -2.8667 × p + 134.233 and

p <1/4 × {(sin ^-1 (1 / n) + sin ^-1 (1 / n · sinc) × (180 / π + 180-2c},

where n is the refractive index of diamond;

π is the constant of a circle;

p is the angle of the pavilion in degrees;

c is the angle of the crown in degrees.

2. The design of the diamond cut, providing many visually perceptible reflected rays, according to claim 1, in which the height (h) of the girdle is from 0.030 to 0.15 relative to the radius of the girdle.

3. The design of the diamond cut, providing many visually perceived reflected rays, according to claim 1, in which the diameter of the site is from 0.45 to 0.60 with respect to the diameter of the girdle.

4. The design of diamond cutting, which provides many visually perceptible reflected rays, according to claim 2, in which the diameter of the site is from 0.45 to 0.60 with respect to the diameter of the girdle.

5. A design of a decorative diamond cut that provides a plurality of visually perceived reflected rays, comprising a substantially circular or polygonal girdle having an upper horizontal section bounded by an upper perimeter and a lower horizontal section parallel to an upper horizontal section and bounded by a lower perimeter, crown close to a truncated polygonal pyramid, located above the upper horizontal section of the girdle, having a facet of the site in the form of a regular octagonal in the upper part of the truncated polygonal pyramid, eight main crown facets, eight star facets and sixteen upper girdle facets, and a pavilion similar in shape to a polygonal pyramid located under the lower horizontal section of the girdle, having eight main pavilion facets and sixteen lower girdle facets, moreover, the central axis passes from the central peak of the polygonal pyramid of the pavilion through the center of the site facet, the first planes, each of which passes from the central axis through the corresponding seven vertices of the site facet, and second planes, each of which extends from the central axis and divides the angle between two adjacent first planes into two equal angles, while each of the main facets of the crown is a rectangular flat surface having two opposite vertices, one of which is one of the vertices of the site facet, and the other is the intersection point of the upper girdle perimeter with the first plane passing through the top of the site facet, a rectangular flat surface has two other rotationally opposite vertices located on the respective neighboring second planes, each of these vertices coinciding with the vertex of the corresponding neighboring main crown facet, each star facet is a triangle whose base coincides with the side of the platform facet, and the vertex of which coincides with the common vertex of two adjacent main facets crowns, each of which has a side passing through the corresponding of the two ends of the base, each upper facet of the girdle is a triangle having a side that coincides with one of the sides of the main facet of the crown and intersects the upper perimeter of the girdle at the end of the side, and a vertex in which the second plane passing through the other end of the side intersects the upper perimeter of the girdle, each main facet of the pavilion is a rectangular flat surface, having two opposite peaks, one of which is the intersection point of the second plane with the lower perimeter of the girdle, and the other coincides with the central peak of the polygonal pyramid of the pavilion, pr the rectangular flat surface has two other opposite vertices located on adjacent first planes, each pavilion main facet has a side matching the side of the adjacent pavilion main facet, and two vertices, each of which coincides with the vertex of the corresponding neighboring main pavilion facet, and each lower facet girdle is a triangle having a side coinciding with the side of one of the main facets of the pavilion and intersecting the lower perimeter of the girdle at the end of the side, and inu, in which the first plane passing through the other end of the side intersects the lower girdle perimeter, in which the height (h) of the girdle between the upper and lower horizontal sections of the girdle is from 0.026 to 0.3 with respect to the radius of the girdle, pavilion angle (p) between the main facet of the pavilion and the lower horizontal section of the girdle is in the range from 37.5 to 41 °, and the angle (s) of the crown between the main facet of the crown and the upper horizontal section of the girdle is in the range satisfying the relations

c> -2.8667 × p + 134.233 and

p <1/4 × {(sin ^-1 (1 / n) + sin ^-1 (1 / n · sinc) × (180 / π + 180-2c},

where n is the refractive index of diamond;

π is the constant of a circle;

p is the angle of the pavilion in degrees;

c is the angle of the crown in degrees.

6. The design of the diamond cut, providing many visually perceptible reflected rays, according to claim 5, in which the height (h) of the girdle is from 0.030 to 0.15 with respect to the radius of the girdle.

7. The design of the diamond cut, providing many visually perceived reflected rays, according to claim 5, in which the diameter of the site is from 0.45 to 0.60 with respect to the diameter of the girdle.

8. The design of the diamond cut, which provides many visually perceptible reflected rays, according to claim 6, in which the diameter of the site is from 0.45 to 0.60 with respect to the diameter of the girdle.

9. A method for observing a decorative diamond, comprising the steps of: providing a decorative diamond with a round diamond cut, which contains essentially a round or polygonal girdle having an upper horizontal section and a lower horizontal section parallel to the upper horizontal section, a crown above the upper horizontal section girdle, having a facet of the site and at least one main facet of the crown, and a pavilion under the lower horizontal section of the girdle, having at least one main facet t of the pavilion, in which the height (h) of the girdle between the upper and lower horizontal sections of the girdle is from 0.026 to 0.3 from the radius of the girdle, the angle (p) of the pavilion between the main facet of the pavilion and the lower horizontal section of the girdle is in the range from 37.5 to 41 °, and the angle (s) of the crown between the main facet of the crown and the upper horizontal section of the girdle is within the limits satisfying the relations

c> -2.8667 × p + 134.233 and

p <1/4 × {(sin ^-1 (1 / n) + sin ^-1 (1 / n · sinc) × (180 / π + 180-2c},

where n is the refractive index of diamond;

π is the constant of a circle;

p is the angle of the pavilion in degrees;

c is the angle of the crown in degrees,

and they observe from the side of the facet of the diamond platform, the rays of light entering the diamond through the facet of the site and facets of the crown, namely, the main facets of the crown, facet of the star and facets of the crown girdle, and coming out of the facet of the site and facets of the crown, at an angle of view of less than 20 ° relative to the vertical line passing through the center of the site facet.

10. The observation method according to claim 9, in which the rays of light enter the diamond at an angle ranging from 10 to 50 ° relative to the vertical line passing through the center of the facet of the site.

11. The observation method of claim 10, in which the rays of light enter the diamond at an angle ranging from 20 to 45 ° relative to the vertical line passing through the center of the site facet.

12. The observation method according to claim 9, in which the height (h) of the girdle is from 0.030 to 0.15 with respect to the radius of the girdle.

13. The observation method according to claim 9, in which the diameter of the site is from 0.45 to 0.60 with respect to the diameter of the girdle.