RU2486853C2 - Method of faceting diamonds with culet - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention is intended for use in production of jewelry. Proposed method comprises faceting round diamond to form a culet. Inner taper with solid angle of 98.5° is ground and polished in said culet.

EFFECT: complete reflection of light from cullet to create extra stone brilliance.

2 dwg

Description

The invention relates to the processing of diamonds into diamonds with caletta and may find application in the processing of rough diamonds.

A well-known technological process for the production of diamonds is described in patent WO 2009/144594, issued by the International Organization for Intellectual Property on April 7, 2009. It describes a process in which rough diamonds having a cloud of inclusions are examined, and the diamond is cut so that the geometric shapes of the inclusions are of aesthetic interest, associative interest, that is, interest due to their symbolism or connections with religion, country or other social or cultural groups. The diamond is processed in the shape of a round diamond cut, the disadvantage of which is the size of the calette, which, for a clearer display of the geometric shape of the inclusion, can reach 40% of the area, which in turn reduces light reflection.

Closest to the features of the proposed technology is the method of cutting diamonds described in the book by V. Epifanov. and others. "Technology of processing diamonds into diamonds." M.: Higher School, 1987, p.206. This form of cut is called a “princess”. “Princess” diamonds have plates with alternating regular grooves. Each plate can be cut into any shape (square, rectangle, polygon, heart-shaped). The top of the plate is polished in the form of a tabular platform with a small number of faces, the bottom is cut by a series of V-shaped grooves at an angle of 41 °. Thanks to these grooves, a complete internal reflection of light between two faces of adjacent grooves is provided.

However, polishing the caleta in a round diamond using the “princess” technology with V-shaped grooves allows full internal reflection only from adjacent parallel grooves.

The basis of the invention is the task of developing a method for processing diamonds with dimensions that do not allow grinding the bottom of the diamond with a spike at an angle of more than 98.5 ° over the height of the stone.

Cutting the bottom of a diamond at an ideal angle is possible only with a calette. However, the caletta allows light to pass through the site. A caletta is necessary, the shape of which would create an internal reflection, as close as possible to the reflection of the spike.

The technical result consists in the fact that full reflection of the light from the caletta is provided, creating an additional radiance of the stone.

The technical result is provided by the method of cutting diamonds with a calette, including cutting a round diamond with the formation of a calette, while in contrast to the known solution, the inner cone is polished and polished with a solid angle of 98.5 °.

Such a technological solution allows the rays of light, passing through the platform and reaching the calette, not to pass through it, but to be reflected from the surface of the cone on the brink of the bottom of the diamond and go up, creating a complete reflection of the rays of light from the calette.

Figure 1 shows a diamond with an inner cone on a caletta, side view with a partial cut;

figure 2 is a bottom view of the diamond.

The method is as follows.

The diamond is placed in a special collet fixture and polished in a calette of a cone with a solid angle of 98.5 °. After grinding, the cone is polished. Laser cone processing is also possible.

Using the present invention for cutting diamonds with a calette will significantly improve the "game" of the crystal due to total internal reflection without increasing the consumption of raw materials. It is possible to use stones with a height of less than 60% of the diameter.

Claims (1)

A method for cutting diamonds with a calette, including cutting a round diamond cut to form a caletta, characterized in that the inner cone with a solid angle of 98.5 ° is ground and polished in the calette.

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