US20070186586A1 - Oval-cut diamond - Google Patents
Oval-cut diamond Download PDFInfo
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- US20070186586A1 US20070186586A1 US10/598,805 US59880505A US2007186586A1 US 20070186586 A1 US20070186586 A1 US 20070186586A1 US 59880505 A US59880505 A US 59880505A US 2007186586 A1 US2007186586 A1 US 2007186586A1
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- United States
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- girdle
- facets
- pavilion
- facet
- oval
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- A—HUMAN NECESSITIES
- A44—HABERDASHERY; JEWELLERY
- A44C—PERSONAL ADORNMENTS, e.g. JEWELLERY; COINS
- A44C17/00—Gems or the like
- A44C17/001—Faceting gems
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04M—TELEPHONIC COMMUNICATION
- H04M1/00—Substation equipment, e.g. for use by subscribers
- H04M1/02—Constructional features of telephone sets
- H04M1/0202—Portable telephone sets, e.g. cordless phones, mobile phones or bar type handsets
- H04M1/0206—Portable telephones comprising a plurality of mechanically joined movable body parts, e.g. hinged housings
- H04M1/0208—Portable telephones comprising a plurality of mechanically joined movable body parts, e.g. hinged housings characterized by the relative motions of the body parts
- H04M1/0235—Slidable or telescopic telephones, i.e. with a relative translation movement of the body parts; Telephones using a combination of translation and other relative motions of the body parts
- H04M1/0237—Sliding mechanism with one degree of freedom
Definitions
- the present invention relates to a cut of diamond, and in particular to a cut of diamond having an oval girdle that emits an enhanced brilliancy of reflection lights.
- a round brilliant cut diamond As a cut of diamond, a round brilliant cut is generally used.
- a round brilliant cut diamond has a table facet of a regular octagon on a top of a crown, and eight crown main facets, eight star facets and sixteen upper girdle facets on an outer circumference of the crown between the table facet and a girdle.
- the diamond further has a culet at an apex below the girdle, and eight pavilion main facets and sixteen lower girdle facets on an outer circumference of a pavilion between the culet and the girdle.
- the round brilliant cut is generally called a 58-facet solid, including the table facet and the culet.
- the round brilliant cut is eight times symmetrical with respect to a central axis.
- the present inventors introduced “amount of visual-perceptible reflection rays” for a round brilliant cut diamond, invented a cut design of the diamond enhancing the amount of visual-perceptible reflection rays to evaluate brilliancy that people can perceive when they observe diamonds, and applied it for patent. That has been published as Patent Document 1.
- amount of physical reflection rays was obtained in such a manner that meshes are defined by dividing the radius of the diamond into 100 equal segments and the ray density was obtained with respect to each mesh. Since the radius of diamonds is several millimeters, a mesh is an area of several hundred square micrometers.
- oval-cut diamond having an oval girdle as a modification of the round brilliant cut.
- the oval-cut diamond has a crown above a girdle, a pavilion below the girdle and a table facet on a top of the crown.
- An oval-cut diamond that is not symmetrical with respect to a central axis is usually used.
- the oval-cut diamond that is not symmetrical with respect to a central axis has a poor brilliancy of reflection rays. Also, there is a round brilliant cut flatly deformed in a breadth wise or a lengthwise direction. For example, refer to Non-Patent Document 1.
- the oval-cut diamond has a girdle in an oval shape, a crown provided above the girdle and having a table facet on a top of it and a pavilion below the girdle.
- the crown and the pavilion in the oval brilliant cut are deformed, following a replacement of a round girdle in a round brilliant cut to an oval girdle.
- the pavilion of the oval brilliant cut there are eight pavilion main facets converging on a culet from crossing points of the oval girdle with long axes and short axes of the girdle and bisectors dividing the angle between the long axis and the short axis equally into two.
- the pavilion has sixteen lower girdle facets, almost in an oval sector or a triangle, each is a bisection made from a portion surrounded by neighboring pavilion main facets and the girdle.
- a pavilion angle an angle between a pavilion main facet and a table facet
- a pavilion angle of pavilion main facets on the short axis side becomes larger than a pavilion angle of pavilion main facets positioned on the long axis side
- a pavilion angle of pavilion main facets in the midpoint between the long axis and the short axis is intermediate between their pavilion angles.
- an angle of lower girdle facets on the long axis side with the table facet becomes larger than an angle of lower girdle facets on the short axis side with the table facet.
- crown vertexes on the long axis side among the vertexes of the octagonal table facet are shifted outside, and vertexes on the short axis side among the vertexes of the octagonal table facet are shifted inside so that the octagonal table facet is lengthened a little in the long axis direction, and lengths in a radial direction and crown angles of crown main facets (it may be called “bezel facet” sometimes) are made equal for all.
- the oval brilliant cut diamond is almost equal among the eight crown angles and different among the eight pavilion angles. Also, an angle of each of the sixteen lower girdle facets with the table facet is different among them. Since the pavilion angle of the pavilion main facets on the long axis side is smaller, but the pavilion angle of the pavilion main facets on the short axis side is larger, the pavilion main facet positioned in the midpoint between the long axis and the short axis cannot be directed in a direction of the central axis.
- the diamond Since the diamond has different pavilion angles, different lower girdle facet angles and facets not directed in the central axis direction as explained above, lights reflected on the pavilion main facets and the lower girdle facets and light patterns appearing on these facets are not uniform, because reflection light directions from the facets are not the same, and they are difficult to identify because of extremely fine reflection patterns. Also, the brilliancy on the crown facets and the table facet is very poor.
- the present inventors have obtained reflection ray amount based on “the amounts of visual-perceptible reflection rays” introduced in the above-mentioned patent application.
- An arithmetic mean of “an amount of effective visual-perceptible reflection rays” obtained by an incident light of 20 degrees to 45 degrees and “an amount of visual-perceptible reflection rays” obtained from incident light strength modified by using cos 2 ⁇ of incident angle ⁇ of an incident light is referred to as “reflection evaluation index”.
- An oval-cut having an enhanced brilliancy of reflection light has been studied, using the reflection evaluation index.
- an object of the present invention is to provide an oval-cut diamond having an enhanced brilliancy of reflection lights on observing above a table of the diamond.
- An oval-cut diamond according to the present invention comprises a columnar girdle, a crown provided above the girdle and having an octagonal table facet on a top of the crown and a pavilion provided below the girdle, and the girdle has an upper ridge between the crown and the girdle and a lower ridge between the pavilion and the girdle.
- a contour line of a girdle cross-section, parallel to the table facet, is in an oval or oval-like shape.
- the diamond has a central plane containing a long axis of the contour line and being a plane vertical to the table facet, a straight central axis on the central plane crossing vertically the table facet at a center of the long axis of the contour line of the girdle cross-section, a circumscribed circle having a center on the central axis and circumscribing the contour line at at least one end of the long axis of the contour line, eight-dividing planes composed of the central plane, a plane containing a short axis of the contour line of the girdle cross-section and the central axis and planes dividing an angle around the central axis between the plane containing the short axis and the central axis and the central plane equally into two and second eight-dividing planes dividing an angle around the central axis between two neighboring eight-dividing planes.
- the table facet has two opposite vertexes on the central plane and six vertexes symmetrical with respect to the central plane.
- the crown has eight tetragonal crown main facets, eight triangular star facets and sixteen upper girdle facets on a diamond circumference between the girdle upper ridge and the table facet.
- Each of the crown main facets is a tetragon having two opposite vertexes composed of a point, at which each of the eight-dividing planes crosses the girdle upper ridge, and each vertex of the table facet, and other vertexes each owned jointly with each of two other crown main facets neighboring on the crown main facet.
- Each of the star facets is a triangle having a bottom side coinciding with each side of the table facet and an opposite vertex coinciding with each of the other vertexes jointly owned by two neighboring crown main facets each having a vertex at each end of the bottom side.
- Each of the upper girdle facets is a triangle or an oval sector having a bottom side coinciding with a side, whose end is on the girdle upper ridge, among sides of the crown main facets and a vertex on the girdle upper ridge.
- the pavilion has a bottom apex at a lower end of the central axis, and eight pavilion main facets and sixteen lower girdle facets on the diamond circumference between the bottom apex and the girdle lower ridge.
- Each of the pavilion main facets is a tetragon or a part of a tetragon extending from the bottom apex toward a crossing point of each of the second eight-dividing planes with the girdle lower ridge on the diamond circumference between the bottom apex and the girdle lower ridge, and having a side, whose end coincides with the bottom apex, jointly owned with each of two other pavilion main facets neighboring on the pavilion main facet.
- Each of the pavilion main facets is formed with opposite vertexes composed of a crossing point of each of the second eight-dividing planes with the circumscribed circle and the bottom apex.
- Each of the lower girdle facets is formed between the pavilion main facets and the girdle lower ridge.
- Each of the lower girdle facet is a triangle or an oval sector having a bottom side coinciding with a side having an end on the girdle lower ridge among sides of each of the pavilion main facets and a vertex on the girdle lower ridge.
- each of the lower girdle facets is disposed on each of both sides of each of the pavilion main facets.
- the oval or oval-like shape formed by the contour line of the girdle cross-section has a ratio of a short radius to a long radius (b/a) of 0.6 or more, in which a radius in a long axis direction of the shape (hereinafter, referred to as “long radius”) is denoted as “a”, and a radius in a short axis direction of the shape (hereinafter, referred to as “short radius”) is denoted as “b”.
- each of the pavilion main facets may have a substantially equal pavilion angle with the table facet.
- each pair of pairs of pavilion main facets, of which each pair is composed of two pavilion main facets positioned opposite to each other with respect to the central axis, and the table facet have a common plane vertical to all of them within them
- each pair of pairs of crown main facets, of which each pair is composed of two crown main facets positioned opposite to each other with respect to the central axis, and the table facet have a common plane vertical to all of them within them.
- crown main facets have substantially equal crown angles with the table facet.
- a pavilion angle to the table facet each of the pavilion main facets has and a crown angle to the table facet each of the crown main facets has are in a region surrounded by lines connecting points (p, c): (43 degrees, 10 degrees), (41 degrees, 14 degrees), (37 degrees, 23 degrees), (35 degrees, 33 degrees), (35 degrees, 36 degrees), (37 degrees, 42 degrees), (39 degrees, 42 degrees), (41 degrees, 36 degrees), (43 degrees, 24degrees) and (44.7 degrees, 9 degrees) on a graph drawn with pavilion angles (p) in a vertical line and crown angles (c) in a horizontal line.
- the girdle has a substantially equal girdle height around a whole circumference of the girdle, and that facets in the pavilion excluding lower girdle facets neighboring on the long axis have adjusting facets between a respective facet and the girdle lower ridge having a larger angle to the table facet than the pavilion angle and forming a ridge between the respective facet and each of the adjusting facets.
- the central axis of the diamond passes a center of the long axis of the contour line of the girdle cross-section.
- the contour line of the girdle cross-section parallel to the table is oval.
- the present invention can be applied to a diamond called “marquise” that has a contour line in a shape of two oval sectors (or circle sectors that are a kind of oval sectors) crossing each other on a girdle cross-section parallel to the table facet.
- the present invention can be applied to a diamond called “pear-shape” that has a contour line in a shape of three oval sectors (or circle sectors that are a kind of oval sectors) crossing each other on a girdle cross-section parallel to the table facet.
- the oval-cut diamond according to the present invention exhibits an enhanced brilliancy of reflection lights when observed above the table.
- the brilliancy has been improved by about 200 to 300% in comparison with that of a diamond flatly deformed in a breadth wise or a lengthwise direction from a round brilliant cut.
- a girdle height can be substantially equal around the whole girdle circumference so that a good appearance can be obtained.
- FIG. 1 shows a top plan view of an oval-cut diamond of EXAMPLE 1 of the present invention
- FIG. 2 shows a bottom plan view of the oval-cut diamond of EXAMPLE 1 of the present invention
- FIG. 3 shows a front view of the oval-cut diamond of EXAMPLE 1 of the present invention
- FIG. 4 shows a side view of the oval-cut diamond of EXAMPLE 1 of the present invention
- FIG. 5 shows an explanatory view of optical paths, using a cross-section of the oval-cut diamond of EXAMPLE 1;
- FIG. 6 shows an explanatory view of optical paths, using a cross-section of the oval-cut diamond of EXAMPLE 1;
- FIG. 7 shows a top plan view of an oval-cut diamond of EXAMPLE 2.
- FIG. 8 shows a bottom plan view of the oval-cut diamond of EXAMPLE 2.
- FIG. 9 shows a front view of the oval-cut diamond of EXAMPLE 2.
- FIG. 10 shows a side view of the oval-cut diamond of EXAMPLE 2.
- FIG. 11 shows a top plan view of an oval-cut diamond of EXAMPLE 3.
- FIG. 12 shows a bottom plan view of the oval-cut diamond of EXAMPLE 3.
- FIG. 13 shows a front view of the oval-cut diamond of EXAMPLE 3.
- FIG. 14 shows a side view of the oval-cut diamond of EXAMPLE 3.
- FIG. 15 shows an explanatory view of optical paths, using a cross-section of the oval-cut diamond of EXAMPLE 3;
- FIG. 16 shows an explanatory view of optical paths, using a cross-section of the oval-cut diamond of EXAMPLE 3;
- FIG. 17 shows a top plan view of a comparative oval-cut diamond
- FIG. 18 shows a bottom plan view of the comparative oval-cut diamond
- FIG. 19 shows a front view of the comparative oval-cut diamond
- FIG. 20 shows a side view of the comparative oval-cut diamond
- FIG. 21 is a graph showing relationship between reflection evaluation indexes and short-long radius ratios (b/a) of the oval-cut diamonds of EXAMPLE 3 of the present invention and the comparative oval-cut diamond;
- FIG. 22 is a graph showing a region of pavilion angles (p) and crown angles (c) having desirable reflection evaluation indexes for the oval-cut diamonds of the present invention.
- FIG. 23 is an explanatory view of an observation method of the oval-cut diamond.
- FIG. 1 shows a top plan view of the oval-cut diamond of EXAMPLE 1 of the present invention
- FIG. 2 shows a bottom plan view thereof
- FIG. 3 shows a front view thereof
- FIG. 4 shows a side view thereof.
- the oval-cut diamond 100 comprises a columnar girdle 110 , a crown 120 provided above the girdle 110 , and a pavilion 140 provided below the girdle 110 .
- the crown 120 has an octagonal table facet 122 on a top of the crown.
- FIG. 1 shows the crown 120 seen from the above
- FIG. 2 shows the pavilion 140 seen from the bottom.
- An oval brilliant cut diamond comprises a girdle having an oval cross-section, a crown provided above the girdle and having a table facet on a top of the crown, and a pavilion provided below the girdle.
- the girdle has an upper ridge between the crown and the girdle and a lower ridge between the pavilion and the girdle.
- the crown and the pavilion in the oval brilliant cut diamond are shaped to have an oval girdle replacing a round girdle in a round brilliant cut diamond.
- a cross-section of the girdle 110 parallel to the table facet is oval.
- the present invention can be applied to a diamond that has a contour line of a girdle cross-section, parallel to a table facet, in an oval or oval-like shape, for example diamonds called “marquis” and “pear-shape”.
- a plane that contains a long axis of the contour line of the girdle cross-section and is vertical to the table facet is a central plane, a straight line on the central plane crossing vertically the table facet 122 at the midpoint of the long axis of the contour line, that is, a center of the octagonal table facet 122 is a central axis, which is a z-axis.
- An origin point of the z-axis is on an upper cross-section of the girdle, that is, a cross-section between the crown and the girdle.
- an x-axis is drawn in a long axis direction of the girdle, and a y-axis is drawn in a short axis of the girdle.
- bisectors are drawn dividing angles between the long axis and the short axis substantially equally into two.
- Planes containing the central axis (the z-axis) and extending in directions of the x-axis, the bisectors, and the y-axis are called eight-dividing planes 170 .
- Planes dividing an angle around the central axis (the z-axis) between neighboring eight-dividing planes 170 equally into two are called second eight-dividing planes.
- planes between the x-axis and the bisectors are second eight-dividing planes 180 ′
- planes between the bisectors and the y-axis are second eight-dividing plane 180 ′′.
- two opposite vertexes 123 of the table facet 122 are positioned on an eight-dividing plane 170 in the x-axis direction and an eight-dividing plane in a ⁇ x-axis direction, that is, on the central plane, and six other vertexes 124 and 125 are symmetrical with respect to the central plane.
- the table facet 122 is symmetrical with respect to the y-axis
- the two vertexes 124 are positioned on an eight-dividing plane 170 containing the y-axis.
- the crown 120 has, in addition to the table facet 122 , eight tetragonal crown main facets 126 , eight triangular star facets 132 , and sixteen upper girdle facets 136 .
- the two opposite vertexes 123 of the table facet 122 are at a substantially equal distance from the central axis (the z-axis) in the x-axis direction (the long axis direction) on the central plane, and the two opposite vertexes 124 are at a substantially equal distance from the central axis in the y-axis direction (the short axis direction), and other four vertexes 125 are positioned at a substantially equal distance from the central axis in directions of the bisectors dividing the angle between the long axis and the short axis equally into two, though not always on the bisectors.
- Each of the crown main facets 126 is a tetragon having two opposite vertexes 127 and 123 , 129 and 125 , or 128 and 124 composed of points 127 , 129 and 128 , at which each of the eight-dividing planes 170 crosses the upper ridge of the girdle 10 , and vertexes 123 , 125 and 124 of the table facet 122 , and other vertexes 121 each owned jointly with each of two neighboring crown main facets 126 .
- Each of the crown main facets 126 crosses vertically each of the eight-dividing planes.
- the eight crown main facets preferably have an equal angle (crown angle (c)) with the table facet.
- the crown main facets 126 are formed so that planes crossing vertically the eight-dividing planes and having an equal angle with the table facet pass each vertex of the table facet. Points at which intersecting lines of the planes with the eight-dividing planes cross the girdle can be vertexes of the crown main facets on the girdle. For example, for a crown main facet 126 in a direction dividing an angle between the x-axis and the y-axis equally into two, a plane that crosses vertically an eight-dividing plane in the direction dividing the angle between the x-axis and the y-axis equally into two and has a predetermined crown angle is formed to pass the vertex 125 of the table facet.
- a point 129 at which the intersecting line of the plane with the eight-dividing plane 170 crosses the girdle 110 is a vertex on the girdle.
- the crown main facet 126 has two opposite vertexes 125 and 129 .
- Other seven crown main facets 126 are formed similarly. Points of equal depths from the table facets on the intersection lines of neighboring crown main facets are vertexes 121 .
- the eight tetragonal crown main facets 126 thus formed each cross vertically the eight-dividing planes, and have an equal crown angle (c).
- Each of the star facets 132 is a triangle having a bottom side coinciding with each side of the table facet 122 (for example, a line segment 123 - 125 ), and a vertex coinciding with a point 121 jointly owned by two neighboring crown main facets 126 and 126 each having vertexes at opposite ends 123 and 125 of the bottom side (for example, 123 - 125 ).
- Each of the upper girdle facets 136 has a bottom side coinciding with a side (for example, 127 - 121 ), whose end (for example, 127 ) is on the upper ridge of the girdle 110 , among sides of the crown main facet 126 , and a vertex (for example, 138 ) on the girdle upper ridge.
- the upper girdle facet 136 is generally a triangle, but is sometimes an oval sector with an intersecting line with the girdle being an oval sector as shown.
- two upper girdle facets 136 are neighboring with a boundary coinciding with a line connecting a crossing point of the eight-dividing plane 170 and the girdle 110 and the vertex 121 jointly owned by neighboring crown main facets.
- the pavilion 140 has a bottom apex 162 , that is, a culet at a lower end of the central axis.
- the pavilion 140 is an oval cone between the bottom apex 162 and the lower ridge of the girdle 110 , and has eight pavilion main facets 142 and 144 and sixteen lower girdle facets on an outer periphery of the pavilion 140 .
- the pavilion main facets and the lower girdle facets are provided in a position where the pavilion 840 in the comparative example is rotated by 22.5° (a sixteenth revolution) around the central axis (the z-axis).
- the diamond according to the present invention is a modified oval-cut diamond.
- the pavilion main facets 142 and 144 extend from the bottom apex 162 in directions of the second eight-dividing planes 180 ′ and 180 ′′ between the bottom apex 162 and the lower ridge of the girdle 110 , and each of the pavilion main facet 142 extending in the direction of the second eight-dividing plane 180 ′ and the pavilion main facet 144 extending in the direction of the second eight-dividing plane 180 ′′ is a tetragon or a part of a tetragon.
- the pavilion main facet 142 jointly owns a side 186 , whose end is the bottom apex 162 , with a neighboring pavilion main facet 144 .
- the pavilion main facet 142 jointly owns a side 186 (a side extending in the x-axis direction), whose end is the bottom apex 162 , with a neighboring pavilion main facet 142 across the x-axis.
- the pavilion main facet 144 jointly owns a side 186 (a side extending in the y-axis direction), whose end is the bottom apex 162 , with a neighboring pavilion main facet 144 across the y-axis.
- Each of the lower girdle facets is a triangle or an oval sector formed between each of the pavilion main facets 142 and 144 and the lower ridge of the girdle 110 on an outer peripheral surface of the oval cone of the pavilion, and having a bottom side coinciding with a side, whose end is on the girdle lower ridge, among sides of the pavilion main facets, and a vertex on the girdle lower ridge.
- a circumscribed circle 147 circumscribing the girdle at opposite ends of the long axis of the girdle 110 is drawn around the central axis (see FIG. 2 ).
- the second eight-dividing planes 180 ′ and 180 ′′ cross the circumscribed circle 147 at points 153 and 153 ′′.
- the pavilion main facets 142 and 144 have two opposite vertexes composed of the bottom apex 162 and the points 153 ′ and 153 ′′.
- Each of the pavilion main facets 142 and 144 jointly owns a side 186 , whose end is the bottom apex 162 , and the other end 187 of the side 186 with a neighboring pavilion main facet.
- each of the pavilion main facets has a diagonal line connecting two opposite vertexes composed of a point on a circumference of the circumscribed circle 147 and the bottom apex 162 , and has a substantially equal angle (pavilion angle) between the diagonal line and the table facet.
- a short radius of the girdle 110 is smaller than a radius of the circumscribed circle 147
- a tip of the pavilion main facet 144 on the girdle side in the direction of the second eight-dividing plane 180 ′′ near the short axis is broadly cut to form a part of a tetragon.
- a tip of the pavilion main facet 142 on the girdle side in the direction of the second eight-dividing plane 180 ′ near the long axis is also slightly cut to form a part of a tetragon.
- the lower girdle facets (for example, 152 b and 152 c ) have sides (line segments 187 - 153 ′ and 187 - 153 ′′) passing the other end 187 of the side 186 jointly owned by the two neighboring pavilion main facets 142 and 144 , and the crossing points 153 ′ and 153 ′′ of the second eight-dividing planes 180 ′ and 180 ′′ and the circumscribed circle 147 .
- the lower girdle facet has a vertex coinciding with a point 156 at which a plane (an eight-dividing plane) 170 dividing an angle between the two neighboring second eight-dividing planes 180 ′ and 180 ′′ equally into two crosses the girdle 110 .
- the lower girdle facet (for example, 152 b and 152 c ) is a triangle or an oval sector between the line segment 187 - 153 ′ (or 187 - 153 ′′) and the line segment 156 - 187 .
- the pavilion main facets 142 and 144 connect the bottom apex 162 of the central axis and the points 153 ′ and 153 ′′ on the circumscribed circle 147 , and the pavilion main facets cross vertically the second eight-dividing planes, and have an equal angle (pavilion angle (p)) with the table facet 122 .
- the crown 120 preferably has the structure in which the eight crown main facets cross vertically the eight-dividing planes, and have an equal angle (crown angle (c)) with the table facet 122 .
- the oval-cut diamond 100 does not have an equal girdle height around a whole circumference of the girdle.
- the oval-cut diamond 100 has a small girdle height on the long axis side, and a large girdle height on the short axis side.
- points at which each of ridges between neighboring upper girdle facets and each of ridges between the upper girdle facets and the crown main facets cross the girdle are successively connected to form a substantially straight line 112 .
- the pavilion main facets 142 and 144 have diagonal lines connecting the bottom apex and the points on the circumscribed circle 147 , and thus the pavilion main facet 142 near the x-axis crosses the oval girdle 110 near the circumscribed circle 147 , and the pavilion main facet 144 near the y-axis crosses the oval girdle 110 at a distance from the circumscribed circle 147 in a ⁇ z-axis direction.
- the girdle height is small on the long axis side, large on the short axis side, and intermediate on the bisector side between the x-axis and the y-axis.
- a radius in the long axis direction (a long radius) is denoted as “a”
- a radius in the short axis direction (a short radius) is denoted as “b”.
- the oval-cut diamond according to the present invention needs to have a ratio (b/a) of a short radius to a long radius, hereinafter referred to as short-long radius ratio (b/a), of 0.6 or more, and preferably more than 0.7.
- the oval-cut diamond 100 has four pairs of pavilion main facets, of which each pair is composed of two pavilion main facets positioned opposite to each other with respect to the central axis.
- the pairs each composed of two pavilion main facets positioned opposite to each other with respect to the central axis are two pairs of two pavilion main facets 142 extending in the directions of the second eight-dividing planes 180 ′, and two pairs of two pavilion main facets 144 extending in the directions of the second eight-dividing planes 180 ′′.
- the two pavilion main facets constituting each pair of pavilion main facets and the table facet have a common vertical plane within them.
- the diamond 100 has four pairs of crown main facets, of which each pair is composed of two crown main facets positioned opposite to each other with respect to the central axis.
- the pairs of crown main facets positioned opposite to each other with respect to the central axis are a pair of crown main facets extending in the x-axis direction, a pair of crown main facets extending in the y-axis direction, and two pairs of crown main facets extending in the directions of the bisectors.
- the two crown main facets constituting each pair of crown main facets and the table facet have a common vertical plane within them.
- the pavilion main facets have a substantially equal angle (pavilion angle (p)) with the table facet.
- the diamond 100 having such a facet configuration has an enhanced brilliancy.
- FIG. 5 shows optical paths, using a cross-section of the second eight-dividing plane 180 ′ of the oval-cut diamond 100 of EXAMPLE 1.
- the table facet 122 , the pavilion main facet 142 , and the pavilion main facet 142 opposite to the pavilion main facet with respect to the z-axis have a common vertical surface within them.
- Light coming into a facet on the crown is refracted or reflected by the facet, and the coming light or the refracted or reflected light travels along a vertical plane on the facet.
- the table facet and the two pavilion main facets have the common vertical plane, and thus there is light passing through or reflected by all the facets.
- the light passing through the table facet 122 and coming into the diamond 100 from outside is refracted by the table facet, and travels toward the pavilion main facet 142 .
- the light is reflected by the pavilion main facet 142 , travels toward the pavilion main facet 142 on the opposite side with respect to the z-axis, and is reflected.
- the light passes through the table facet 122 and goes out of the diamond 100 .
- the light comes from the table facet or the facet on the crown, is reflected twice in the diamond, and goes out of the diamond 100 from the table facet or the facet on the crown.
- Light coming from the table facet or the facet on the crown, reflected twice in the diamond, and going out of the diamond 100 from the table facet or the facet on the crown has the most enhanced brilliancy. The larger number of times of reflection reduces strength.
- a part of light reflected by the lower girdle facets 152 i and 152 h and a part of light reflected by the pavilion main facet 142 travel toward lower girdle facets 152 e and 152 f on opposite sides of the pavilion main facet 142 on the opposite side with respect to the z-axis (+z-axis side), and are reflected.
- a part of the light passes through the two crown main facets and the two upper girdle facets around the star facet 132 a on the +x-axis side and goes out of the diamond 100 , and the crown main facets and the upper girdle facets 136 also become brilliant.
- the crown main facet (for example, the crown main facet on the +x-axis side) 126 a does not face any pavilion main facet across the girdle, but simply partially faces two pavilion main facets extending in the +x-axis direction.
- the crown main facet 126 a faces two lower girdle facets 152 d and 152 e extending in the +x-axis direction across the girdle.
- the crown main facet 126 b on the ⁇ x-axis side faces the two lower girdle facets 152 g and 152 h extending in the ⁇ x-axis direction across the girdle.
- the four pavilion main facets (the pavilion main facets extending in the directions of the second eight-dividing planes 180 ′) interposing the four lower girdle facets 152 d, 152 e, 152 g and 152 h have an equal pavilion angle, and the pavilion main facets symmetrical with respect to the central axis have a common vertical plane, that is, a vertical plane passing the central axis.
- the two lower girdle facets 152 d and 152 g and the two lower girdle facets 152 e and 152 h symmetrical with respect to the central axis have opposite signs in an x-component and a y-component of a vector in a plane direction.
- the lower girdle facets 152 d and 152 g and the table facet 122 have a common vertical plane.
- the lower girdle facets 152 e and 152 h and the table facet 122 have a common vertical plane.
- these facets have no common vertical plane, and for example, a pair of pavilion main facets extending in the directions of the second eight-dividing planes 180 ′ have no common vertical plane within them, light reaching one of the pavilion main facets do not travel toward the other pavilion main facet.
- the light is reflected four to six times or more in the diamond and goes out of the diamond from the table facet or the crown main facets, or passes without being reflected by the pavilion main facets or the lower girdle facets, thereby reducing a brilliancy of the diamond.
- the pavilion is used embedded in a seat as in the round brilliant cut diamond, and thus light going out of the diamond from each facet on the pavilion does not contribute to the brilliancy.
- FIG. 6 shows optical paths, using a cross-section of the second eight-dividing plane 180 ′′ of the oval-cut diamond 100 of EXAMPLE 1.
- Light passing through a ⁇ y-axis side half of the table facet 122 or the facet on the crown and coming into the diamond 100 from outside is refracted by the table facet or the facet on the crown, reflected by the pavilion main facet 144 , travels toward the pavilion main facet 144 on the opposite side with respect to the z-axis, and is reflected.
- the light passes through the table facet 122 or the facet on the crown, and goes out of the diamond.
- the light coming into the diamond is reflected twice in the diamond and goes out from the table facet or the facet on the crown, and thus has an enhanced brilliancy.
- a portion near an outer periphery of the table facet 122 is shadowed.
- Table 1 shows the results of calculation of reflection evaluation indexes of the oval-cut diamond (a short-long radius ratio (b/a) of 0.8) of EXAMPLE 1.
- the reflection evaluation indexes of the diamond are 308 and 321, and the diamond has a more enhanced brilliancy than a diamond of a comparative example described later.
- the shown reflection evaluation indexes are substantially equal to those of EXAMPLE 3 having adjusting facets.
- FIG. 7 shows a top plan view of the diamond 200
- FIG. 8 shows a bottom plan view thereof
- FIG. 9 shows a front view thereof
- FIG. 10 shows a side view thereof.
- the diamond 200 comprises a columnar girdle 210 , a crown 120 provided above the girdle 210 , and a pavilion 140 provided below the girdle 210 .
- the crown 120 and the pavilion 140 of the diamond 200 have the same structures as the crown 120 and the pavilion 140 of the diamond 100 of EXAMPLE 1.
- a horizontal cross-section of the girdle 210 has sixteen sides.
- Each of upper girdle facets 136 crosses an outer peripheral surface of the girdle 210 with a straight line
- each of lower girdle facets 152 crosses the outer peripheral surface of the girdle 210 with a straight line
- an intersection line of the upper girdle facet 136 and the outer peripheral surface of the girdle is a substantially straight line 212
- a line connecting opposite ends of an intersection line of the lower girdle facet and the outer peripheral surface of the girdle is curved downward on a short axis side and upward on a long axis side to form an oval.
- a girdle height is smaller on the long axis side, larger on the short axis side, and intermediate in the midpoint between the long axis side and the short axis side.
- structures of the facets of the crown and the pavilion are the same as those in the diamond 100 , and a reflection property is also the same as the diamond 100 .
- FIG. 11 shows a top plan view of the oval-cut diamond of EXAMPLE 3 of the present invention
- FIG. 12 shows a bottom plan view thereof
- FIG. 13 shows a front view thereof
- FIG. 14 shows a side view thereof.
- the oval-cut diamond 300 comprises a columnar girdle 310 , a crown 120 provided above the girdle 310 , and a pavilion 340 provided below the girdle 310 .
- the crown 120 has an octagonal table facet 122 on a top of the crown.
- FIG. 11 shows the crown 120 seen from the above and is substantially the same as FIG. 1
- FIG. 12 shows the pavilion 340 seen from the bottom.
- the same components as in EXAMPLE 1 are denoted by the same reference numerals.
- the crown 120 is the same as that in EXAMPLE 1, and the description thereof will be omitted.
- the pavilion 340 has a bottom apex 362 , that is, a culet at a lower end of a central axis.
- the pavilion 340 is a substantially oval cone between the bottom apex 362 and a lower ridge of the girdle 310 , and has eight pavilion main facets 342 and 344 and sixteen lower girdle facets on an outer periphery.
- the pavilion main facets 342 and 344 extend from the bottom apex 362 in directions of second eight-dividing planes 180 ′ and 180 ′′ between the bottom apex 362 and the lower ridge of the girdle 310 , and each of the pavilion main facet 342 extending in the direction of the second eight-dividing plane 180 ′ and the pavilion main facet 344 extending in the direction of the second eight-dividing plane 180 ′′ is a tetragon or a part of a tetragon.
- the pavilion main facet 342 jointly owns a side 386 , whose end is the bottom apex 362 , with a neighboring pavilion main facet 344 .
- the pavilion main facet 342 jointly owns a side 386 (a side extending in the x-axis direction), whose end is the bottom apex 362 , with a neighboring pavilion main facet 342 across the x-axis.
- the pavilion main facet 344 jointly owns a side 386 (a side extending in the y-axis direction), whose end is the bottom apex 362 , with a neighboring pavilion main facet 344 across the y-axis.
- Each of the lower girdle facets is a triangle or an oval sector formed between each of the pavilion main facets 342 and 344 and the lower ridge of the girdle 310 on an outer peripheral surface of the oval cone of the pavilion, and having a bottom side coinciding with a side, whose end is on the girdle lower ridge, among sides of the pavilion main facets, and a vertex on the girdle lower ridge.
- a circumscribed circle 347 circumscribing the girdle at opposite ends of the long axis of the girdle 310 is drawn around the central axis (see FIG. 12 ).
- the second eight-dividing planes 180 ′ and 180 ′′ cross the circumscribed circle 347 at points 353 and 353 ′′.
- the pavilion main facets 342 and 344 have two opposite vertexes composed of the bottom apex 362 and the points 353 ′ and 353 ′′.
- Each of the pavilion main facets 342 and 344 jointly owns a side 386 , whose end is the bottom apex 362 , and the other end 387 of the side 386 with a neighboring pavilion main facet.
- each of the pavilion main facets has a diagonal line connecting two opposite vertexes composed of a point on a circumference of the circumscribed circle 347 and the bottom apex 362 , and has a substantially equal angle (pavilion angle) between the diagonal line and the table facet.
- a short radius of the girdle 310 is smaller than a radius of the circumscribed circle 347
- a tip of the pavilion main facet 344 on the girdle side in the direction of the second eight-dividing plane 180 ′′ near the short axis is broadly cut to form a part of a tetragon.
- a tip of the pavilion main facet 342 on the girdle side in the direction of the second eight-dividing plane 180 ′ near the long axis is also slightly cut to form a part of a tetragon.
- the lower girdle facets (for example, 352 b and 352 c ) have sides (line segments 387 - 353 ′ and 387 - 353 ′′) passing the other end 387 of the side 386 jointly owned by the two neighboring pavilion main facets 342 and 344 , and the crossing points 353 ′ and 353 ′′ of the second eight-dividing planes 180 ′ and 180 ′′ and the circumscribed circle 347 .
- the lower girdle facet has a vertex coinciding with a point 356 at which a plane (an eight-dividing plane) 170 dividing an angle between the two neighboring second eight-dividing planes 180 ′ and 180 ′′ equally into two crosses the girdle 310 .
- the lower girdle facet (for example, 352 b and 352 c ) is a triangle or an oval sector between the line segment 387 - 353 ′ (or 387 - 353 ′′) and the line segment 356 - 387 .
- the pavilion main facets 342 and 344 connect the bottom apex 362 of the central axis and the points 353 ′ and 353 ′′ on the circumscribed circle 347 , and the pavilion main facets cross vertically the second eight-dividing planes, and have an equal angle (pavilion angle (p)) with the table facets 122 .
- the crown 120 preferably has the structure in which the eight crown main facets cross vertically the eight-dividing planes, and have an equal angle (crown angle (c)) with the table facet 122 .
- adjusting facets are formed between the pavilion main facets 342 and 344 formed on the pavilion 340 and the girdle lower ridge and between the lower girdle facets 352 a, 352 b and 352 c and the girdle lower ridge.
- a tetragonal facet 398 a is provided near the girdle of the lower girdle facet 352 a on the short axis side.
- An intersecting line of the lower girdle facet 352 a with the adjusting facet 398 a forms a ridge 398 .
- a distance from a zx-plane to the ridge 398 is preferably 0.5a to 0.6a in long radius (a).
- the ridge 398 extends across pavilion main facets 344 on opposite sides of the lower girdle facet 352 a, a lower girdle facet 352 b placed between the pavilion main facet 344 and the eight-dividing plane 170 , and a neighboring lower girdle facet 352 c, and crosses the girdle 310 in the middle of the pavilion main facet 342 .
- the ridge 398 forms an adjusting facet 394 between the pavilion main facet 344 and the girdle 310 , an adjusting facet 398 b between the lower girdle facet 352 b and the girdle 310 , an adjusting facet 398 c between the lower girdle facet 352 c and the girdle 310 , and a small adjusting facet between the pavilion main facet 342 and the girdle 310 .
- the adjusting facet 394 provided in the pavilion main facet 344 near the short axis has a slightly larger angle than a pavilion angle with the table facet, and that the adjusting facets 398 a, 394 , 398 b and 398 c are formed so that a girdle height is substantially equal around a whole circumference. As shown in a front view in FIG. 13 and a side view in FIG.
- the middle of the lower end of the upper girdle facet and the middle of the upper end of the lower girdle facet or the middle of the upper end of the adjusting facet protrude toward the girdle because the girdle has an oval outer peripheral surface, and the girdle height can be substantially equal around the whole circumstance of the girdle by defining the girdle height according to a distance between a straight line 312 connecting points at which ridges between the upper girdle facets or ridges between the facets and the crown main facets cross the girdle and a straight line 314 connecting points at which ridges between the lower girdle facets and the pavilion main facets and ridges between the adjusting facets cross the girdle.
- the outer peripheral surface of the girdle is preferably interposed between the straight lines at upper and lower ends. However, from the need for facet polishing, the girdle height can be changed to about 15% of the long radius (a).
- the oval-cut diamond 300 has four pairs of pavilion main facets, of which each pair is composed of two pavilion main facets positioned opposite to each other with respect to the central axis.
- the pairs each composed of two pavilion main facets positioned opposite to each other with respect to the central axis are two pairs of two pavilion main facets 342 extending in the directions of the second eight-dividing planes 180 ′, and two pairs of two pavilion main facets 344 extending in the directions of the second eight-dividing planes 180 ′′.
- the two pavilion main facets constituting each pair of pavilion main facets and the table facet have a common vertical plane within them.
- the diamond 300 has four pairs of crown main facets, of which each pair is composed of two crown main facets positioned opposite to each other with respect to the central axis.
- the pairs of crown main facets positioned opposite to each other with respect to the central axis are a pair of crown main facets extending in the x-axis direction, a pair of crown main facets extending in the y-axis direction, and two pairs of crown main facets extending in the directions of the bisectors.
- the two crown main facets constituting each pair of crown main facets and the table facet have a common vertical plane within them.
- the pavilion main facets have a substantially equal angle (pavilion angle (p)) with the table facet.
- the diamond 300 having such a facet configuration has an enhanced brilliancy.
- FIG. 15 shows optical paths, using a cross-section of the second eight-dividing plane 180 ′ of the oval-cut diamond 300 of EXAMPLE 3.
- the optical path in the cross-section is similar to that described in EXAMPLE 1 with reference to FIG. 5 , and the description thereof will be omitted.
- FIG. 16 shows an optical path in the second eight-dividing plane 180 ′′ of the oval-cut diamond 300 of EXAMPLE 3.
- Light passing through the table facet 122 or the facet on the crown and coming into the diamond 300 from outside is refracted by the table facet or the facet on the crown, reflected by the pavilion main facet 344 , travels toward the pavilion main facet 344 on the opposite side with respect to the z-axis, and is reflected.
- the light passes through the table facet 122 or the facet on the crown, and goes out of the diamond.
- FIGS. 17 to 20 An example of an oval-cut diamond that is a round brilliant cut diamond having a girdle flatly deformed in a vertical direction is shown in FIGS. 17 to 20 , which is an oval-cut diamond 800 of a comparative example.
- FIG. 17 shows a top plan view
- FIG. 18 is a bottom plan view
- FIG. 19 is a front view
- FIG. 20 is a side view.
- a girdle 810 has an equal height around a whole circumference of the girdle.
- all crown main facets 826 have an equal crown angle (c) and a table facet 822 is flat in a y-axis direction.
- each of pavilion main facets 842 , 844 and 846 is a tetragon having two opposite vertexes composed of a bottom apex (culet) 862 and a point on a girdle lower ridge.
- a pavilion angle of the two pavilion main facets 842 extending in the x-axis direction is smaller, and a pavilion angle of the two pavilion main facets 844 extending in the y-axis direction is larger.
- a pavilion angle of the two pavilion main facets 846 provided in the midpoint between the x-axis direction and the y-axis direction is intermediate between the pavilion angle of the pavilion main facets 842 in the x-axis direction and the pavilion angle of the pavilion main facets 844 in the y-axis direction.
- the pavilion main facet 842 in the x-axis direction extends toward a central axis (a z-axis) passing a bottom apex 862 , namely, a perpendicular of the pavilion main facet 842 crosses the central axis.
- the pavilion main facet 844 in the y-axis direction extends toward the central axis (the z-axis) passing the bottom apex 862 , namely, a perpendicular of the pavilion main facet 844 crosses the central axis. However, a perpendicular of the pavilion main facet 846 does not extend toward the central axis (the z-axis).
- a pair of crown main facets 826 and a pair of pavilion main facets 842 positioned opposite to each other with respect to the central axis, and the table facet 822 have a common vertical plane (shown by thick broken lines in FIGS. 17 and 18 ) 872 within them.
- a pair of crown main facets 826 and a pair of pavilion main facets 844 positioned opposite to each other with respect to the central axis, and the table facet 822 have a common vertical plane 874 within them.
- a pair of crown main facets 826 positioned opposite to each other with respect to the central axis and the table facet 822 have a common vertical plane 876 within them, but pavilion main facets 846 do not have the vertical plane 876 within them and are not vertical.
- a vertical plane 877 on a pavilion main facet 846 in the midpoint between the x-axis and the y-axis and a vertical plane 878 on a pavilion main facet 846 in the midpoint between a ⁇ x-axis and a ⁇ y-axis do not coincide with each other.
- FIG. 21 shows, on a graph, the results of calculation of reflection evaluation indexes of the oval-cut diamond 300 or EXAMPLE 3 and the oval-cut diamond 800 of the comparative example described above.
- FIG. 21 shows, in a vertical line, the results of calculation of reflection evaluation indexes of the diamonds of EXAMPLE 3 and the comparative example with short-long radius ratios (b/a) in a horizontal line.
- the diamond 300 of EXAMPLE 3 has a pavilion angle of 38.5 degrees and a crown angle of 27.92 degrees
- the diamond 800 of the comparative example has a pavilion angle on the long axis side of 38.5 degrees and all crown angles of 27.92 degrees.
- the reflection evaluation index of the diamond 300 of EXAMPLE 3 was about 270 and the reflection evaluation index of the comparative example was about 100, and the reflection evaluation index of the diamond 300 of EXAMPLE 3 was 270% of that of the comparative example.
- the reflection evaluation index of the diamond 300 of EXAMPLE 3 was about 330 and the reflection evaluation index of the comparative example was about 170, and the reflection evaluation index of the diamond 300 of EXAMPLE 3 was about twice that of the comparative example.
- a short-long radius ratio (b/a) At a short-long radius ratio (b/a) less than 0.6, there appears a facet extremely elongated and difficult to machine in an oval-cut diamond, and thus a short-long radius ratio (b/a) needs to be 0.6 or more. Further, as shown in FIG. 21 , the reflection evaluation index of about 500 of the round brilliant cut diamond (a short-long radius ratio (b/a) of 1.0) becomes less than 250 at the short-long radius ratio (b/a) of 0.6 to reduce a brilliancy. At a short-long radius ratio (b/a) of 0.7 or more, the reflection evaluation index becomes 250 or more to enhance the brilliancy.
- the short-long radius ratio (b/a) of the oval-cut diamond needs to be 0.6 or more.
- the short-long radius ratio (b/a) approaches 1.0, the diamond becomes nearly the round brilliant cut diamond, and the present invention needs not to be applied.
- the short-long radius ratio (b/a) needs to be less than 0.95.
- Table 2 shows the results of calculation of reflection evaluation indexes of samples A to U with different pavilion angles (P) and different crown angles (c) in an oval-cut diamond (a short-long radius ratio (b/a) of 0.8).
- FIG. 22 shows a graph drawn with the pavilion angles (p) in a horizontal line and the crown angles (c) in a vertical line for these samples.
- the oval-cut diamond (the short-long radius ratio (b/a) of 0.8) of the comparative example in FIGS. 17 to 20 had a maximum value of the reflection evaluation index of about 250.
- the samples with the reflection evaluation indexes of 250 or more are A to P among the samples A to U in Table 2, and the region of the pavilion angles (p) and the crown angles (c) of the samples is surrounded by a thick solid line in FIG. 22 as a preferred range in the present invention.
- the preferred pavilion angles (p) and crown angles (c) are in a region surrounded by a line connecting points (p, c): (43 degrees, 10 degrees), (41 degrees, 14 degrees), (37 degrees, 23 degrees), (35 degrees, 33 degrees), (35 degrees, 36 degrees), (37 degrees, 42 degrees), (39 degrees, 42 degrees), (41 degrees, 36 degrees), (43 degrees, 24 degrees) and (44.7 degrees, 9 degrees) on the graph drawn with the pavilion angles (p) in the horizontal line and the crown angles (c) in the vertical line.
- Strength of the reflection light can be measured by an optical sensor or the like directly or from an image on the print. Then, the cylinder 903 is removed, light is applied at an angle of 0 degrees to 90 degrees with respect to the central axis of each of the diamonds 100 to 300 , the reflection light pattern is similarly observed, and strength of the reflection light is measured. Average strength of the reflection light is calculated to be strength of the reflection light.
- the present invention may be applied to a modified oval-cut diamond by rotating the crown or the pavilion by a sixteenth revolution, which has an enhanced brilliancy of reflection light.
- the diamond having the oval girdle cross-section is described above, but the present invention can be applied to a diamond called “marquise” that has a contour line in a shape of two oval sectors (or circle sectors that are a kind of oval sectors) crossing each other on a girdle cross-section parallel to the table facet.
- the present invention can be also applied to a diamond called “pear-shape” that has a contour line in a shape of three oval sectors (or circle sectors that are a kind of oval sectors) crossing each other on a girdle cross-section parallel to the table facet.
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US20110000259A1 (en) * | 2007-12-14 | 2011-01-06 | Strnad Iii Leonard J | Gemstone and method for cutting the same |
US20110302959A1 (en) * | 2010-06-11 | 2011-12-15 | Adam Wcislo | Precious stone setting |
US9226554B2 (en) | 2014-05-12 | 2016-01-05 | Yoshihiko Kodama | Circular cut diamond |
US9398791B1 (en) * | 2015-01-26 | 2016-07-26 | Ecna, Llc | Diamond cuts providing increased light amplification |
US10085530B2 (en) * | 2012-10-12 | 2018-10-02 | D. Swarovski Kg | Chaton cut for a gemstone made of topaz |
USD906160S1 (en) * | 2020-06-22 | 2020-12-29 | Olympian Diamonds, Inc. | Gemstone |
USD909235S1 (en) * | 2017-11-18 | 2021-02-02 | Jonathan WEINGARTEN | Faceted gemstone |
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JP4748359B2 (ja) * | 2005-12-19 | 2011-08-17 | 大日本印刷株式会社 | プラスチックボトル容器 |
JP4709088B2 (ja) * | 2006-07-14 | 2011-06-22 | 株式会社ほほえみブレインズ | 2段パビリオン装飾用ダイヤモンド |
JP4709087B2 (ja) * | 2006-07-14 | 2011-06-22 | 株式会社ほほえみブレインズ | 2段パビリオン装飾用ダイヤモンド |
US7878025B2 (en) * | 2007-05-04 | 2011-02-01 | SanDiamond USA, Corp. | Oval shaped diamond cut having hearts and arrows pattern |
JP5236209B2 (ja) * | 2007-05-10 | 2013-07-17 | 士朗 清原 | 歯牙製品及び歯牙製品の製造方法 |
BRPI0821918A2 (pt) * | 2008-01-09 | 2015-06-16 | Hohoemi Brains Inc | Diamante ornamental tendo pavilhão de dois estágios |
JP5788562B1 (ja) * | 2014-05-01 | 2015-09-30 | 株式会社タスコ | 宝石 |
US10258118B2 (en) | 2015-06-16 | 2019-04-16 | Worldwide Diamond Trademarks Ltd. | Oval shaped diamond cut having hearts and arrows pattern |
CN109788828B (zh) * | 2016-09-29 | 2021-08-17 | 吉美S.T.S.株式会社 | 宝石 |
CN110754746B (zh) * | 2019-11-08 | 2021-10-01 | 周大生珠宝股份有限公司 | 一种一百刻面圆琢型钻石及其加工方法 |
US11633023B2 (en) * | 2020-01-15 | 2023-04-25 | Albert Gad Ltd. | Gemstone and methods of cutting the same |
CN115829594B (zh) * | 2023-02-03 | 2023-06-06 | 国检中心深圳珠宝检验实验室有限公司 | 一种基于腰部轮廓特征的宝石识别方法、装置及存储介质 |
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US20020043078A1 (en) * | 2000-08-25 | 2002-04-18 | Yoshinori Kawabuchi | Cut design of diamond for ornamental use |
US6615611B1 (en) * | 2000-09-26 | 2003-09-09 | Michael Schachter | High yield diamond |
US6892720B2 (en) * | 2000-09-26 | 2005-05-17 | Michael Schachter | Method for cutting natural and/or man-made diamonds |
USD459268S1 (en) * | 2001-05-15 | 2002-06-25 | William Goldberg Diamond Corp. | Jewelry stone |
US6591827B2 (en) * | 2001-06-25 | 2003-07-15 | Roy Fuchs | Method for preparing a diamond |
US20050115275A1 (en) * | 2001-10-19 | 2005-06-02 | Michael Kedem | Rounded rectangular gemstone |
US20030154741A1 (en) * | 2002-02-19 | 2003-08-21 | Yoshinori Kawabuchi | Cut design of diamonds providing plenty of visual-perceptible reflection for ornamental use and observation method thereof |
US20050081563A1 (en) * | 2003-08-18 | 2005-04-21 | Yair Riemer | Gemstone cut |
USD500700S1 (en) * | 2004-04-21 | 2005-01-11 | K. Einhorn Bvba | Precious stone |
Cited By (9)
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US20110000259A1 (en) * | 2007-12-14 | 2011-01-06 | Strnad Iii Leonard J | Gemstone and method for cutting the same |
US10362843B2 (en) * | 2007-12-14 | 2019-07-30 | II Leonard J. Strnad | Gemstone and method for cutting the same |
US20110302959A1 (en) * | 2010-06-11 | 2011-12-15 | Adam Wcislo | Precious stone setting |
US10085530B2 (en) * | 2012-10-12 | 2018-10-02 | D. Swarovski Kg | Chaton cut for a gemstone made of topaz |
US9226554B2 (en) | 2014-05-12 | 2016-01-05 | Yoshihiko Kodama | Circular cut diamond |
US9398791B1 (en) * | 2015-01-26 | 2016-07-26 | Ecna, Llc | Diamond cuts providing increased light amplification |
CN106535695A (zh) * | 2015-01-26 | 2017-03-22 | Ecna有限责任公司 | 具有增强光放大的钻石切割法 |
USD909235S1 (en) * | 2017-11-18 | 2021-02-02 | Jonathan WEINGARTEN | Faceted gemstone |
USD906160S1 (en) * | 2020-06-22 | 2020-12-29 | Olympian Diamonds, Inc. | Gemstone |
Also Published As
Publication number | Publication date |
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CN1946310A (zh) | 2007-04-11 |
TWI342754B (en) | 2011-06-01 |
RU2362468C2 (ru) | 2009-07-27 |
US20070186585A1 (en) | 2007-08-16 |
JPWO2005096867A1 (ja) | 2008-02-21 |
DE602005025333D1 (de) | 2011-01-27 |
TW200600030A (en) | 2006-01-01 |
EP1741360A4 (en) | 2008-06-18 |
EP1741359A4 (en) | 2008-06-18 |
WO2005096866A1 (ja) | 2005-10-20 |
TWI342755B (en) | 2011-06-01 |
TW200536495A (en) | 2005-11-16 |
CN100569137C (zh) | 2009-12-16 |
JPWO2005096866A1 (ja) | 2008-02-21 |
EP1741359B1 (en) | 2010-12-15 |
EP1741359A1 (en) | 2007-01-10 |
KR20060045569A (ko) | 2006-05-17 |
JP4387406B2 (ja) | 2009-12-16 |
ATE491361T1 (de) | 2011-01-15 |
WO2005096867A1 (ja) | 2005-10-20 |
RU2006139647A (ru) | 2008-05-20 |
CN1946311A (zh) | 2007-04-11 |
CN100553516C (zh) | 2009-10-28 |
EP1741360A1 (en) | 2007-01-10 |
KR20060045570A (ko) | 2006-05-17 |
KR101066802B1 (ko) | 2011-09-22 |
RU2006139638A (ru) | 2008-05-20 |
KR101066803B1 (ko) | 2011-09-22 |
RU2363363C2 (ru) | 2009-08-10 |
JP4387405B2 (ja) | 2009-12-16 |
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