RU2190944C1 - Precious stone - Google Patents

Abstract

FIELD: jewelry industry, in particular, diamond processing. SUBSTANCE: precious stone, in particular, diamond with rounded facets has 57 faces and is composed of rundist, lower part with faces arranged in two stages at an angle to rundist surface, upper part with faces arranged in three stages at an angle to rundist surface, and platform. Faces of lower part are inclined at an angle of 47-52 deg to rundist surface and faces of upper part are inclined at an angle of 5-17 deg to rundist surface. Platform has size making 0.05-0.85 the diameter of precious stone. EFFECT: increased correlated coefficient of diamond glare beauty and greater yield during manufacture of diamonds from octahedral habitus raw material. 3 dwg, 28 tbl

Description

 The invention relates to the field of processing of precious stones, namely to technology for processing diamonds into diamonds.

 A gemstone is known, mainly a diamond, having a round cut shape and consisting of a girdle, a lower part having two zones of faces, and an upper part having three zones of faces, and a platform. The faces of the lower and upper parts are made at an angle to the plane of the girdle [1].

The nature and strength of the optical properties of a diamond, which determine its brilliance and “play,” depend on the angles of inclination of the faces to the plane of the girdle and on the direction of the light flux, as well as on the proportion between the size of the area and the diameter of the diamond. In this analogue, the main cut parameters are close to ideal. The angle of inclination of the faces of the upper part is in the range of 30-40 ^o and equal to 34.5 ^o , the angle of inclination of the faces of the lower part in the range of 38-43 ^o and is equal to 40.8 ^o , and the size of the site is in the range of 0.5-0.6 and equal to 0.56 of the diameter of the diamond. In this generally accepted range of the angle of inclination of the faces of the upper and lower parts of a diamond, the value that determines the effectiveness of the “game of brilliance” of a diamond (the beauty of brilliance) is (1.0 ± 0.1) conventional units and is called the generalized coefficient of beauty of brilliance of a diamond (OKB). At the same time, the generalized brilliance beauty coefficient of a diamond combines the following optical and physical characteristics: brilliance - the intensity of light reflected from a gem; gloss dispersion - the decomposition of light rays coming from a gem into a rainbow due to the dispersion of the refractive index of the material; glimmer flicker (scintillation) - the amount and intensity of glare in reflected light when a gem is turned or tilted. The magnitude of the generalized brilliance beauty factor of a diamond is all the more important, the greater the intensity and dispersion of the brilliance of the gemstone and has a maximum depending on the flicker of the brilliance, assuming the maximum value at the optimum flicker for a person’s eyes.

 The closest analogue of the invention is a gemstone, mainly a round-cut diamond, having 57 faces and consisting of a girdle, a lower part having two face belts, and an upper part having three face belts, and a platform [2].

In this analogue, the angle of inclination of the edges of the lower part is increased, which is equal to 53 ^o , the size of the site is in the range of 0.4-0.5 diameter of the diamond, and the height of the upper part is 15% of the diameter of the diamond.

 The disadvantage of the gemstone is that these cut parameters do not provide a high value of the generalized brilliance beauty factor of a diamond, which is a function of the intensity, dispersion and flicker of brilliance.

The essence of the invention lies in the fact that the proposed gemstone, mainly a round-cut diamond, having 57 faces, consists of a girdle, a lower part having two facets made at an angle to the plane of the girdle, and an upper part having three facets, made at an angle to the plane of the girdle, and the site. To enhance the brightness and “play” of the gemstone, the range of inclination angles to the girdle plane of the faces of the lower part is 47-52 ^o , the range of inclination angles to the girdle plane of the faces of the upper part is 5-17 ^o , and the size range of the site is 0.05-0 , 85 gem diameter sizes.

 Thus, the technical result is achieved, namely, that in the proposed invention provides higher values of the generalized coefficient of beauty of the brilliance of the diamond, namely more than 1.6 conventional units, and a higher yield suitable for the manufacture of diamonds from raw materials of an octahedral habit.

The invention is illustrated by drawings, where:
figure 1 shows the proposed gem - diamond;
in FIG. 2 - the same, top view, where D is the diameter of the diamond, d is the size of the site;
in FIG. 3 is the same side view, where α is the angle of inclination of the faces of the upper part of the diamond, β is the angle of inclination of the faces of the lower part of the diamond.

 A diamond consists of the upper part 1, which has three face belts, the lower part 2, which has two face belts. Between the upper and lower parts there is a girdle 3. The upper part of the diamond ends with platform 4.

The cut is made in such a way that the edges of the upper part 1 of the diamond are inclined to the plane of the girdle 3 at an angle α = 5-17 ^o , and the faces of the lower part 2 are inclined to the plane of the girdle 3 at an angle β = 47-52 ^o , the size of the area 4 is 0, 05-0.85 the size of the diameter of a diamond.

 By combining these cut parameters with each other, one can achieve the highest value of the generalized brilliance beauty coefficient of a diamond.

 At the end of the description, in the form of tables, examples of various combinations of cut parameters are given and the values of the gloss, dispersion of gloss, flicker and generalized brilliance of the brilliance of the diamond obtained for the analogue, prototype and proposed gemstone obtained by calculation.

 As can be seen from the examples, the generalized beauty coefficient of gloss of the proposed gemstone is higher than that of the analogue and prototype (see tables).

Sources of information
1. V.I. Epifanov, A.E. Pesina, L.V. Zykov. Technology for processing diamonds into diamonds. - M.: Higher School, 1987, p.196-200.

 2. J. S. Dodson A statistical assessment of brilliance and fire for the round brilliantcut diamond = Statistical Assessment of Gloss and Variance of a Round Diamond // Optica Acta. - 1978, vol. 25, N 8, pp. 681-692.

Claims (1)

A gem, preferably a round-shaped diamond, having 57 faces and consisting of a girdle, a lower part having two girdle faces made at an angle to the girdle plane, and an upper part having three girdle faces made at an angle to the girdle plane, and site, characterized in that the range of the angle of inclination of the faces of the lower part to the plane of the girdle is 47-52 ^o , the range of the angle of inclination of the faces of the upper part to the plane of the girdle is 5-17 ^o , and the size range of the site is 0.05-0.85 diameter size drago valuable stone.

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