Patent application title: BRILLIANTIZED GEMSTONE AND METHOD OF MANUFACTURE
Inventors:
IPC8 Class: AA44C1700FI
USPC Class:
1 1
Class name:
Publication date: 2017-03-09
Patent application number: 20170065040
Abstract:
A diamond, which has an arched configuration on one end and a
baguette-style configuration on the other, comprising a girdle, a top or
crown above the girdle, and a pavilion or base below the girdle, The
crown terminates in an upper planar surface known as a "table," which is
generally parallel to the girdle plane. The arched end is comprised of a
series of crown facets that are preferably arranged about a common
center. The pavilion also includes several sets of inner and outer
pavilion facets where the inner pavilion facets terminate at respective
lowerbreak lines.Claims:
1. An arched diamond, comprising: a generally planar table lying in a
table plane; a circumferential girdle lying in a girdle plane, the table
plane being substantially parallel to the girdle plane; a first end of
the diamond being substantially square and including a first-end crown
section defined by main, lower main, and upper main crown facets lying
between the table and girdle; a second, arched, end of the diamond being
arched shaped and including a crown section defined by a series of
angularly arranged crown facets arranged radially about a common center
in lower, middle, and upper rows; the diamond including a pavilion
section, lying between the girdle and a culet, defined by first, second,
third, fourth, and fifth sets of outer pavilion facets and first and
second sets of inner pavilion facets arranged in an arcuate manner about
a common center.
2. The diamond of claim 1, wherein the main crown facets are oriented at a break angle of approximately in the range of 37.degree.-39.degree. relative to the girdle plane.
3. The diamond of claim 1, wherein the lower main crown facets are oriented at a break angle of approximately in the range of 39.degree.-41.degree. relative to the girdle plane.
4. The diamond of claim 1, wherein the upper main crown facets are oriented at a break angle of approximately in the range of 35.degree.-37.degree. relative to the girdle plane.
5. The diamond of claim 1, wherein the lower row of crown facets at the second, arched, end is oriented at a break angle of approximately in the range of 39.degree.-41.degree. relative to the girdle plane.
6. The diamond of claim 1, wherein the middle row of crown facets at the second, arched, end is oriented at a break angle of approximately in the range of 37.degree.-39.degree. relative to the girdle plane.
7. The diamond of claim 1, wherein the upper row of crown facets at the second, arched, end is oriented at a break angle of approximately in the range of 35.degree.-37.degree. relative to the girdle plane.
8. The diamond of claim 1, wherein the first set of outer pavilion facets is oriented at a break angle of approximately in the range of 41.5.degree.-44.5.degree. relative to the girdle plane.
9. The diamond of claim 1, wherein the second set of outer pavilion facets is oriented at a break angle of approximately in the range of 41.5.degree.-43.5.degree. relative to the girdle plane.
10. The diamond of claim 1, wherein the third set of outer pavilion facets is oriented at a break angle of approximately in the range of 37.5.degree.-44.5.degree. relative to the girdle plane.
11. The diamond of claim 1, wherein the fourth set of outer pavilion facets is oriented at a break angle of approximately in the range of 35.5.degree.-38.5.degree. relative to the girdle plane.
12. The diamond of claim 1, wherein the fifth set of outer pavilion facets is oriented at a break angle of approximately in the range of 37.5.degree.-40.5.degree. relative to the girdle plane.
13. The diamond of claim 1, wherein the first set of inner pavilion facets is oriented at a break angle of approximately in the range of 39.5.degree.-42.5.degree. relative to the girdle plane.
14. The diamond of claim 1, wherein the second set of inner pavilion facets is oriented at a break angle of approximately in the range of 31.5.degree.-34.5.degree. relative to the girdle plane.
15. An arched diamond, comprising: a table lying in a table plane; a girdle lying in a girdle plane, the girdle plane being substantially parallel to the table plane; the diamond being comprised of a first end and a second end; the first end being comprised of a first-end crown section and a first-end pavilion section; the second end being comprised of a second-end crown section and a second-end pavilion section; the first-end crown section being comprised of: a portion of the table, and main, lower main, and upper main crown facets; the first-end pavilion section being comprised of: a portion of a second set of outer pavilion facets and full sets of third, fourth, and fifth sets of outer pavilion facets and a portion of a first set of inner pavilion facets and a full second set of inner pavilion facets, the first and second set of inner pavilion facets terminating at a culet; the second-end crown section being comprised of: a continuation of the table, and lower, middle, and upper rows of crown facets; and the second-end pavilion section being comprised of: a full set of a first set of outer pavilion facets and a portion of a second set of outer pavilion facets and a portion of the first set of inner pavilion facets.
16. The diamond of claim 15, wherein the main crown facets are oriented at a break angle of approximately in the range of 37.degree.-39.degree. relative to the girdle plane.
17. The diamond of claim 15, wherein the lower main crown facets are oriented at a break angle of approximately in the range of 39.degree.-41.degree. relative to the girdle plane.
18. The diamond of claim 15, wherein the upper main crown facets are oriented at a break angle of approximately in the range of 35.degree.-37.degree. relative to the girdle plane.
19. The diamond of claim 15, wherein the lower row of crown facets at the second, arched, end is oriented at a break angle of approximately in the range of 39.degree.-41.degree. relative to the girdle plane.
20. The diamond of claim 15, wherein the middle row of crown facets at the second, arched, end is oriented at a break angle of approximately in the range of 37.degree.-39.degree. relative to the girdle plane.
21. The diamond of claim 15, wherein the upper row of crown facets at the second, arched, end is oriented at a break angle of approximately in the range of 35.degree.-37.degree. relative to the girdle plane.
22. The diamond of claim 15, wherein the first set of outer pavilion facets is oriented at a break angle of approximately in the range of 41.5.degree.-44.5.degree. relative to the girdle plane.
23. The diamond of claim 15, wherein the second set of outer pavilion facets is oriented at a break angle of approximately in the range of 41.5.degree.-43.5.degree. relative to the girdle plane.
24. The diamond of claim 15, wherein the third set of outer pavilion facets is oriented at a break angle of approximately in the range of 37.5.degree.-44.5.degree. relative to the girdle plane.
25. The diamond of claim 15, wherein the fourth set of outer pavilion facets is oriented at a break angle of approximately in the range of 35.5.degree.-38.5.degree. relative to the girdle plane.
26. The diamond of claim 15, wherein the fifth set of outer pavilion facets is oriented at a break angle of approximately in the range of 37.5.degree.-40.5.degree. relative to the girdle plane.
27. The diamond of claim 15, wherein the first set of inner pavilion facets is oriented at a break angle of approximately in the range of 39.5.degree.-42.5.degree. relative to the girdle plane.
28. The diamond of claim 15, wherein the second set of inner pavilion facets is oriented at a break angle of approximately in the range of 31.5.degree.-34.5.degree. relative to the girdle plane.
Description:
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application is a continuation in part of co-pending U.S. application Ser. No. 14/614,903 filed Feb. 5, 2015 titled "Novel Arched Gemstone and Method of Manufacture." This application is also a continuation-in-part of co-pending U.S. application Ser. No. 29/573,586 filed Aug. 8, 2016 titled "Brilliantized Arched Gemstone," which is a continuation-in-part of co-pending application serial number 29/539,411 filed Sep. 14, 2015 titled "Arched Gemstone," which is a continuation of U.S. application Ser. No. 29/479,666 filed Jan. 17, 2014 entitled "Arched Gemstone," now U.S. Pat. No. D738,776 issued Sep. 15, 2015. Applicant claims priority thereto, the entire teachings of which being incorporated herein by reference.
BACKGROUND OF THE INVENTION
[0002] 1. Field of the Invention
[0003] This invention relates to the art of transforming rough gemstones into faceted arched products, and, more particularly, relates to a novel arched gemstone and method for cutting and faceting gemstones in such a way as to form an arched shaped having a brilliance, fire, and high yield that is significantly increased over prior arched gemstones.
[0004] 2. Description of the Prior Art
[0005] The art of creating facets on gemstones has existed for many centuries. the first known attempt to facet a diamond is believed to have taken place in the eleventh century. At that time, eight triangular faces were polished in a rough diamond, creating what became known as the "point cut," which resembled a pair of pyramids joined at their bases.
[0006] In the early part of the fourteenth century, a single horizontal planar facet was introduced, which became known as the "table," leaving four natural beveled surfaces (crown facets) that created the crown. Later, additional crown facets were added, and the shape of the table, and hence the resulting stone, was changed into different shapes. One of those shapes is the so-called "arch cut," where one end of the table is curved and the other end generally flat like a baguette.
[0007] Currently, precious stones are first cut into a top or crown, and a bottom, base, or pavilion, leaving a girdle lying between the two in a horizontal plane. Customarily, any number of top primary facets are cut into the top section, and any number of bottom primary facets are cut into the bottom this phase of the cutting process is known as "blocking." Thereafter, additional facets may be added (depending on the particular cut style being applied) to the top and bottom section in a second phase known as brillianteering. "Blocking" is the step in the diamond cutting process in which the initial angles and primary facets are created from the rough stone and "brillianteering" is the subsequent step during which secondary or minor facets are polished into the stone.
[0008] One cut style is known as the "baguette," in which numerous facets arranged parallel to the girdle are used. The cuts are called "step-cuts" rather than brillianteering cuts because they form small "steps" in the surface of the stone as the angle of the stone surfaces is changed from facet to facet.
[0009] No matter the cut, aside from desired visual attributes of stones, weight retention is extremely important.
[0010] Rectangular cut stones can retain between 60%-75% of the weight of the rough. Therefore, such cuts are highly desirable as they result in the highest yield of all of the various cuts. In contrast, for round cuts, 40% weight retention is the accepted maximum, and 50% weight retention is standard for oval cuts. Therefore, baguette faceting is a desirable way to achieve good weight retention.
[0011] Today's diamond consumer is typically a highly discriminating and well educated shopper, looking for the highest value out of his or her investment At the same time, the diamond supplier wants to obtain the highest yield from a given piece of rough. Since the price per carat increased exponentially in proportion to the carat weight of a particular stone, it is highly desirable to increase the yield, and conversely decrease the waste, from a given rough.
[0012] In addition, the unusual appearance of an arch shaped gemstone adds to its appeal. The particular ornamental design of a given stone, therefore, can affect the value of it and products to which it is applied as well.
SUMMARY OF THE INVENTION
[0013] It is, therefore, a principle object of this invention to provide arched gemstones, including but not limited to diamonds, which exhibit acceptable visual properties while yielding greater weight retention out of a given parcel of rough.
[0014] It is another object of this invention to provide arch shaped gemstones that are visually attractive and unlike any other that has been proposed heretofore.
[0015] In accordance with these and other objects, an embodiment of the invention is directed to an arched stone that has a substantially higher yield than has heretofore been achieved while retaining optimal visual performance and appearance due to the arrangement of facets on the stones.
[0016] In general, the product of an embodiment is comprised of a diamond, which has a faceted arched configuration on one end and a baguette-style configuration on the other, comprising a girdle, a top or crown above the girdle, and a pavilion or base below the girdle. For purposes of this description, the girdle will be deemed to lie in a horizontal plane ("girdle plane"). The crown terminates in an upper planar surface known as a "table," which is generally parallel to the girdle plane. The pavilion preferably ends at is lower most end with a point culet, although any bottom contour could be employed without departing from the spirit of the invention.
[0017] In one embodiment, the pavilion is comprised of a series of facets, some of which make up an upper pavilion, and another series of facets below the upper pavilion facets which constitute the lower pavilion. In an embodiment, the stone may be divided into eighteen main top facets and eight main bottom facets as a result of the blocking step, which will be discussed in more detail below.
[0018] The resulting visual performance of stones configured as described herein is surprising and striking, while at the same time resulting in a higher yield for a given quantity of rough material from which the stone is cut.
[0019] The techniques disclosed herein result in a product which is completely unexpected and dramatically superior to what conventional wisdom in the field would predict.
[0020] Also, the particular shapes chosen for embodiments of this invention have unique visual characteristics that will appeal to a wide audience.
BRIEF DESCRIPTION OF THE DRAWINGS
[0021] FIG. 1 is a top plan view of an arched gemstone faceted in accordance with an embodiment of this invention.
[0022] FIG. 2 is a bottom plan view thereof.
[0023] FIG. 3 is a front elevational view thereof.
[0024] FIG. 4 is a rear elevational view thereof.
[0025] FIG. 5 is a left side elevational view thereof, which is a mirror image of the right side.
[0026] FIG. 6 is a right front top perspective view thereof.
[0027] FIG. 7 is a perspective view of a bangle to which are attached a series of arched diamonds as disclosed herein.
[0028] FIG. 8 is a top plan view of a second arched gemstone faceted in accordance with another embodiment of this invention.
[0029] FIG. 9 is a bottom plan view thereof.
[0030] FIG. 10 is a rear elevational view thereof.
[0031] FIG. 11 is a front elevational view thereof.
[0032] FIG. 12 is a left side elevational view thereof.
[0033] FIG. 13 is a right side elevational view thereof.
[0034] FIG. 14 is a top left elevational view thereof.
DESCRIPTION OF THE PREFERRED AND OTHER EMBODIMENTS
[0035] The instant invention, in an embodiment, is directed to a shape of a cut precious stone characterized as having rectangular baguette-like features on one end, and multiple facets on the other end to form an arch shape. In creating the arch, a large "window" sized pavilion facet is employed to create the appearance one would expect to see when looking through an archway. In the preferred embodiment, the arch is formed using step cuts.
[0036] Throughout this description, the stone 10 may be referred to as a "diamond," although any stone may be cut in accordance with this specification and, thereby, fall within the scope of the invention.
[0037] In one form, stone 10 is comprised of a top or crown section 12, and a base or pavilion section 14. In this embodiment, the crown 12 defines a flat, planar, table 16, while the base terminates at culet 20. Culet 20 may be keel-shaped as shown. Alternatively, as mentioned above, the base may terminate without the use of a culet if desired, although the use of a culet enhances the visual performance of the stone. Stone 10 in this embodiment, as best seen in FIG. 1, may be thought of as being comprised of a first end portion 23 defined by width and length dimensions "X.sub.W" and "X.sub.L" respectively, which first end 23 in its most basic sense may be comprised of a square baguette cut between first end girdle line 19 and reference line 25. It is to be appreciated, however, that the width X.sub.W and length X.sub.L dimensions, respectively, of the first end 23 of stone 10 need not be the same while still falling within the scope of the invention. In the preferred embodiment, length dimension X.sub.L is approximately 99.degree.-101.degree. of the width dimension X.sub.W.
[0038] Reference line 25 passes through the center of curvature C of the second, arch shaped, portion 21 of stone 10. The overall length of the stone of an embodiment is approximately 144%-151% of the width dimension X.sub.W. The height "Y" of the second end 19 of stone 10 is, in an embodiment, between 45% and 50% of width dimension "X.sub.W" of first end 23. These parameters have been found to create the preferred visual effect, but may be varied as will be appreciated by one of ordinary skill in the art after having had the benefit of this disclosure.
[0039] In cutting stone 10 from rough, in an embodiment, the bottom portion of the stone is created by blocking a series of step cut facets 40, 42, 44 and 46; 50, 52, 54 and 56; 60, 62, 64 and 66; and 70, 72, 74 and 76. In addition, a crown is initially formed by blocking a series of crown facets 80, 82 and 84; 90, 92 and 94; 100, 102 and 104; and 120-140.
[0040] In addition, upstanding pavilion facets 150-165 are created in the second, arched, end of stone 10 to form a faceted, lustrous, arch around an upper boundary 27 of a "first" arched, or second, end window facet 22. Window facet 22 in the preferred embodiment is characterized as forming an enlarged window defined at least in part by an arcuate upper rib line 32, said upper rib line 32 being bounded above by said one or more upstanding pavilion facets 150-165 and below by a rib line separating window facet 22 from the "second" second-end pavilion facet 72. Facets 150-165 may be arranged at approximately the angles shown in FIGS. 3, 5 and 6 relative to the girdle plane or otherwise depending upon the visual affect desired, and may, in the preferred embodiment, be essentially a continuation of girdle 18. In the embodiment shown, facets 150-165 are oriented at approximately 90.degree. relative to the girdle plane, and are of staggered heights arranged symmetrically about opposite sides of the pavilion of the second end 21 of stone 10. Moreover, in the embodiment shown, facets 150-165 are arranged arcuately about common center C.
[0041] In an embodiment, rib line "B" between window facet 22 and second second-end pavilion facet 72 is parallel to first-end girdle edge 19, as are all of the rib lines between second-end pavilion facets 72, 74 and 76.
[0042] The crown height is the distance "A" from the girdle 18 to the table 16. The pavilion height is the distance "C" from the girdle 18 to the culet 20. The thickness of girdle 18 is depicted by the variable "B." The crown break angle, which is an angle between the row of crown facets immediately adjacent the girdle and the girdle plane, is preferably, but not by way of limitation, between 40.degree. and 43.degree..
[0043] In an embodiment, the arch shape is formed, as discussed above, by making a series of step cuts to yield the shape shown in the drawings. It is to be understood, however, that brillianteering or other faceting cuts or polishings may be made in addition to, or in lieu of, the step cuts shown in the drawings. In addition, more or fewer step (and/or brillianteering) cuts may be made to result in an overall arch-shaped stone in accordance with this invention. It is also to be understood that the dimensional ratios and size ranges may vary for any arched stone cut in accordance with this invention, without departing from the scope of this invention, the specific dimensions shown being consistent only with the preferred embodiment.
[0044] In an embodiment, the table width "Z" relative to the overall width "X" of the first end 23 of stone 10 is between 60% and 72%. Also, the crown height "A" is preferably 10.5% to 13.5% of the overall height of stone 10, which overall height is the accumulation of dimensions "A," "B" and "C," as best seen in FIG. 4. In addition, in this embodiment, height "D" of window 22 in pavilion 14 is preferably between 2% and 24% of the overall height of stone 10.
[0045] Girdle height "B" is, in this embodiment, preferably between 2%-4% of the overall height of stone 10. Base or pavilion height "C" is preferably between 50% and 55% of the overall height of the stone in this embodiment.
[0046] The step-cut facets 80, 82 and 84; 90, 92 and 94; 100, 102 and 104; and 120-140 in crown 12 are, in an embodiment, sized and oriented as shown in FIGS. 1 and 3-6.
[0047] Facets 80, 82 and 84; 90, 92 and 94; 100, 102 and 104 may be referred to as first end crown facets. Facets 80, 90 and 100 may be referred to as "first" or "a first row of" first-end crown facets, facets 82, 92 and 102 may be referred to as "second" or "second row of" first-end crown facets, and facets 84, 94 and 104 may be referred to as "third" or "third row of" first end crown facets.
[0048] The size and orientation of the facets 40, 42, 44 and 46; 50, 52, 54 and 56; 60, 62, 64 and 66; and 22, 72, 74 and 76 that make up an embodiment of the pavilion in the preferred form of stone 10 are shown best in FIGS. 2 through 6.
[0049] The size and orientation of the facets 120-140 that make up the crown portion of second end 21 of this embodiment are best shown in FIGS. 1 and 3-6. Crown arch facets 120-140 maybe referred to as second end crown facets. Facets 120, 123, 126, 129, 132, 135 and 138 may be referred to as "first" or "first row of" second end crown facets, facets 121, 124, 127, 130, 133, 136 and 139 may be referred to as "second" or "second row of" second-end crown facets, and facets 122, 125, 128, 131, 134, 137 and 140 may be referred to herein as "third" or "third row of" second-end crown facets.
[0050] The rib lines 160, 161, 162, 163, 164, 165, 166 and 167 lying between the table and girdle which separate the crown arch facets 120-140 are themselves arranged, in an embodiment, radially about center C. The first such rib line 160 is preferably oriented at an angle relative to reference line 25 of between 7.degree. and 9.degree., the second such rib line 161 being oriented preferably at an angle relative to reference line 25 of between 31.degree.-35.degree., the third such rib line 162 being oriented preferably at an angle relative to reference line 25 of between 53.degree.-57.degree., the fourth such rib line 163 being oriented preferably at an angle relative to reference line 25 of between 75.degree.-80.degree., the fifth such rib line 164 being oriented preferably at an angle relative to reference line 25 of between 100.degree.-104.degree., the sixth such rib line 165 being oriented preferably at an angle relative to reference line 25 of between 123.degree.-127.degree., the seventh such rib line 166 being oriented preferably at an angle relative to reference line 25 of between 145.degree.-149.degree., and the eighth such rib line 167 being oriented preferably at an angle relative to reference line 25 of between 169.degree.-173.degree. (all relative to center C). It is to be understood that different angles, and different numbers and sizes of crown arch facets, may be used while staying within the scope of the invention.
[0051] The preferred range of break angles of the first row of crown arch, or second-end crown, facets 120, 123, 126, 129, 132, 135 and 138 (as well as first end crown facets 80, 90 and 100) is, as stated previously, between 40.degree.-43.degree.. The preferred range of angles of the second row of crown arch, or second-end crown, facets 121, 124, 127, 130, 133, 136 and 139 (as well as first end crown facets 82, 92 and 102) relative to the girdle plane is 30.degree.-32.degree.. The preferred range of angles of the third row of crown arch, or second-end crown, facets 122, 125, 128, 131, 134, 137 and 140 (as well as first end crown facets 84, 94 and 104) relative to the girdle plane is 20.degree.-22.degree.
[0052] In the preferred embodiment, the pavilion break angle, which is the angle between the girdle plane and the first row of pavilion facets 22, 40, 50 and 60 immediately adjacent the girdle, is 50.degree.-55.degree., and this first row of facets occupy in the range of 16%-18% of the width X.sub.W of stone 10. The second row of pavilion facets 42, 52, 62 and 72 are oriented at an angle relative to the girdle plane preferably in the range of 42.degree.-45.degree., and occupy in the range of 10%-12% of the width X. The third row of pavilion facets 44, 54, 64 and 74 are oriented at an angle relative to the girdle plane preferably in the range of 36.degree.-39.degree., and occupy in the range of 9%-11% of the width X. The fourth row of pavilion facets 46, 56, 66 and 76 are oriented at an angle relative to the girdle plane preferably in the range of 30.degree.-32.degree., and occupy in the range of 7%-9% of the width X.
[0053] The first row of pavilion facets 40, 50 and 60 in the first end of stone 10 may be referred to as "first" or "first row of" first-end pavilion facets, the second row of pavilion facets 42, 52 and 62 in the first end of stone 10 may be referred to as "second" or "second row of" first-end pavilion facets, the third row of pavilion facets 44, 54 and 64 may be referred to as "third" or "third row of" first-end pavilion facets, and the fourth row of pavilion facets 46, 56 and 66 may be referred to as "fourth" or "fourth row of" first-end pavilion facets.
[0054] Likewise, first pavilion facet 22 may be referred to as the "first" second-end pavilion facet, facet 72 as the "second" second-end pavilion facet, facet 74 as the "third" second-end pavilion facet, and facet 76 as the "fourth" second-end pavilion facet.
[0055] Stones cut in accordance with the invention may be used in jewelry pieces or as standalone gems. An example of one such jewelry piece is shown in FIG. 7, in which a series of arch shaped stones are arranged in correspondingly shaped arches in a bracelet, ring, earring, pendant or the like. The combination of arched stones and corresponding arches creates a stunning, unusual and unexpected visual effect.
[0056] Another embodiment of the instant invention is directed to a modified shape of a cut precious stone characterized as having rectangular baguette-like features on one end, and multiple facets on the other end to form an arch shape. In the preferred embodiment, the arch is formed using a series of facets.
[0057] In this embodiment, shown in FIGS. 8-14, the stone 210 is comprised of a top or crown section 212, and a base or pavilion section 214. The crown 212 defined a flat, planar, table 216, while the base terminates at a culet 220. Culet 220 may be a point as shown or, alternatively, the base may terminate without the use of a culet if desired, although the use of a culet enhances the visual performance of the stone. Stone 210, as best seen in FIG. 8, may be thought of as being comprised of a first end portion 223, defined by width and length dimensions "X.sub.W" and "X.sub.L" respectively, which first end 223 in its most basic sense is comprised of a square baguette cut between firs end girdle line 219 and reference line 225. It is to be appreciated, however, that the width X.sub.W and length X.sub.L dimensions, respectively, of the first end 223 of diamond 210 need not be the same while still falling within the scope of the invention. In the embodiment, length dimension X.sub.L is approximately 99%-101% of the width dimension X.sub.W.
[0058] Reference line 225 passes through the center of curvature C of the second, arch shaped, portion 221 of diamond 210. The overall length of the stone of the embodiment is approximately 148%-152% of the width dimension X.sub.W. The height "Y" of the second end 221 of diamond 210 is, in the embodiment, between 47% and 51% of width dimension "X.sub.W" of first end 223. These parameters have been found to create a desired visual effect, but may be varied as will be appreciated by one of ordinary skill in the art after having had the benefit of this disclosure.
[0059] In cutting diamond 210 from rough, the bottom potion of the stone is created by blocking a series of facets 326 and 336. In addition, a crown is initially formed by blocking a series of crown facets 280, 282, and 284; 290, 292, and 294; 300, 302, and 304; and 340-358.
[0060] The crown height is the distance "A" from the girdle 219 to the table 216. The pavilion height is the distance "C" from the girdle 219 to the culet 220. The thickness of girdle 219 is depicted by the variable "B." The brown break angle, which is an angle between the row of crown facets immediately adjacent the girdle and the girdle plane, is preferably between 37.degree. and 39.degree..
[0061] In an embodiment, the arch shape is formed, as discussed above, by making a series of cuts to yield the shape shown in the drawings. It is to be understood, however, that brillianteering or other faceting cuts or polishings may be made in addition to, or in lieu of, the cuts shown in the drawings. In addition, more or fewer cuts (and/or brillianteering) may be made to result in an overall arch-shaped stone in accordance with this invention. It is also to be understood that the dimensional ratios and size ranges may vary for any arched stone cut in accordance with this invention, without departing from the scope of this invention, the specific dimensions shown being consistent only with the preferred embodiment.
[0062] In an embodiment, the table width "Z" relative to the overall width "X" of diamond 210 is between 68% and 72%. Also in the embodiment, overall height of the diamond 210 is the accumulation of dimensions "A," "B" and "C," as best seen in FIG. 12. In the embodiment, crown height "A" can be any percentage of the overall height of the diamond 210, but is preferably between 10.5% to 13.5% of the overall height of the diamond 210. Base or pavilion height "C" as well can be, in the embodiment, any percentage of the overall height of the diamond 210, but is preferably between 50% to 55% of the overall height of the diamond 210.
[0063] The facets 280, 282, and 284; 290, 292, and 294; 300, 302, and 304; and 340-358 in crown 212 are, in the embodiment, sized and oriented as shown in FIGS. 8, and 10-14.
[0064] The facets 280, 282, and 284; 290, 292, and 294; 300, 302, and 304; and 340-358 may be referred to as first end crown facets. Facets 280, 290, and 300 may be referred to as the "main" crown facets, facets 282, 292, and 302 may be referred to as the "lower main" crown facets, and facets 284, 294, and 304 may be referred to as the "upper main" crown facets.
[0065] The size and orientation of the facets 326 and 336 that make the pavilion in this form of diamond 210 are shown best in FIGS. 9-14.
[0066] The size and orientation of the facets 340-358 that make up the form of the crown portion of second end 221 are best shown in FIGS. 8, 11, 12, 13, and 14. In this embodiment, crown arch facets 340-358 may be referred to as second end crown facets. Facets 340, 342, 344, 346, 348, 350, 352, 354, 356, and 358 may be referred to as "lower row of" second end crown facets, facets 341, 345, 349, 353, and 357 may be referred to as "middle row of" second end crown facets, facets 343, 347, 351, and 355 may be referred to as "upper row of" second end crown facets.
[0067] The preferred range of break angles of the lower row of crown arch, or second end crown, facets 340, 342, 344, 346, 348, 350, 352, 354, 356, and 358 (as well as lower main crown facets 282, 292, and 302) relative to the girdle plane is between 39.degree.-41.degree.. The preferred range of angles of the middle row of crown arch, or second end crown, facets 341, 344, 349, 353, and 357 (as well as main crown facets 280, 290, and 300) relative to the girdle plane is 37.degree.-39.degree.. The preferred range of angles for the upper row of crown arch, or second end crown, facets 343, 347, 351, and 355 (as well as upper main crown facets 284, 294, and 304) relative to the girdle plane is 35.degree.-37.degree.. In the preferred embodiment, the pavilion break angle, which is the angle between the girdle plane and the pavilion facets 326, 328, 330, 334, 336 and 338, varies based on location. The first set of outer pavilion facets 326, located at the tip of second end 21, have a break angle of 41.5.degree.-44.5.degree.. The second set of outer pavilion facets 328, located radially outward from the first set of pavilion facets 326 at first end 221, have a break angle of 41.5.degree.-43.5.degree.. The third set of outer pavilion facets 330, located centrally on the diamond 210, have a break angle of 37.5.degree.-44.5.degree.. The fourth set of outer pavilion facets 332, located closer to the first end girdle line 219, have a break angle of 35.5.degree.-38.5.degree. in this embodiment. Also in this embodiment, the fifth set of outer pavilion facets 334, located along first end girdle line 219, have a break angle of 37.5.degree.-40.5.degree.. The first set of inner pavilion facets 336, which extend radially outward from the culet 220 towards second end 221, have a break angle of 39.5.degree.-42.5.degree. in this embodiment. The second set of inner pavilion facets 338, which extend radially outward from the culet 220 towards first end girdle line 219, have a break angle of 31.5.degree.-34.5.degree. in this embodiment.
[0068] Stones cut in accordance with embodiments of the invention may be used in jewelry pieces or as standalone gems.
[0069] As specified in connection with all embodiments, the sequence of cuts made during the blocking phase is irrelevant, so long as the resulting diamond 210 has the arrangement of facets within the specified ranges as shown and described, and such equivalents thereof as are within the scope of the invention. For example, the main pavilion facets may be cut first, or the main crown facets may be cut first. However, the actual sequence of blocking steps will be selected by the cutter based on such parameters as the shape and grain structure of the diamond.
[0070] While the invention has been described in various forms or embodiments with some degree of particularity, it is understood that this description has been given only by way of example and that numerous changes in the details of construction, fabrication, and use, including the combination and arrangement of features, may be made without departing from the spirit or scope of the invention.
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