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Method for cutting simulation artificial diamond

A cutting method and artificial diamond technology, applied in the direction of manufacturing tools, stone processing equipment, fine working devices, etc., can solve the problems of insufficient fineness, poor luminosity, large polygonal surface area, etc., and achieve easy operation and cutting method simple effect

Active Publication Date: 2012-04-25
ZHEJIANG NEOGLORY JEWELRY CO LTD
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The shapes of the cutting surfaces are various and intersecting, which makes the cutting process more complicated. Because of the complexity of the cutting process, most of the existing simulated artificial diamonds can only be a perfect circle in appearance, which is relatively simple, and the general area of ​​the polygonal surface is Larger, poor sense, not delicate enough, poor luminosity

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  • Method for cutting simulation artificial diamond
  • Method for cutting simulation artificial diamond
  • Method for cutting simulation artificial diamond

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Embodiment Construction

[0027] The present invention will be further described in detail below in conjunction with the accompanying drawings and specific embodiments.

[0028] As shown in the figure, a cutting method for imitating artificial diamonds uses zirconium silicate (zirconia) as the raw material; carries out billeting and taking out materials; From top to bottom, it includes the convex crown 2, the edge 4 and the protruding part 6. The thickness of the edge 4 is generally 0.5mm; then the cutting surface grinding mainly includes the following process:

[0029] ① Cut the edge part 4 into a perfect circular smooth closed ring; as Figure 2-Figure 5 shown.

[0030] ② Take the point of the protruding part 6 located on the centerline of the edge part 4 as the sharp point 7, and take the sharp point 7 as the center point on the side of the protruding part 6 to make 32 equally divided cutting planes 5, and the adjacent cutting planes The bisectors on both sides of 5 are shared respectively, and th...

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Abstract

The invention relates to a method for cutting emulated artificial diamonds, which is characterized in that: zirconium silicate is taken as the material; cogging and reclaiming are carried out; then, an initial blank modeling is carried out and the initial blank modeling comprises a convex crown, an edge part and a convex part from the top to the bottom in sequence; then, section grinding manufacture is carried out, which substantially comprises the following processes: (1), the edge part is cut into a smooth closed ring; (2), the side of the convex part is cut into cutting surfaces with 20-40equal divisions; (3), the corresponding positions of the side of the convex crown and the side of the convex part are equally divided by 20-40; (4), a plane smooth closed surface is formed on the topof the convex crown, which takes the corresponding position of a cusp of the convex part as a center point; finally each cutting surface is polished in sequence. In the technical proposal of the method for cutting the emulated artificial diamond, the side of the convex crown and the convex part is correspondingly adopted as the cutting surface of the equal division. The diamond has relatively strong refractive luminosity and particularly, under natural light or common light, the diamond has flowery, glary and bright effect; the cutting surfaces are dense and an upper cutting surface and a lower surface are mutually assorted, shining in regular direction.

Description

technical field [0001] The invention relates to a cutting method of a simulated artificial diamond with a novel and simple design. Background technique [0002] The existing method of cutting artificial zircon into simulated artificial diamond basically follows the cutting method of hundreds of years, that is, as figure 1 As shown, it is a top view of the artificial diamonds currently used. Generally, the cuts are cut with circular edge polygonal faces, mainly such as triangles 8, quadrilaterals 9 and other shapes formed by crossing each other, but the luminous effect of this cutting method , in today's diversified jewelry field, there is basically nothing particularly attractive. [0003] The shapes of the cutting surfaces are diverse and intersecting, which makes the cutting process more complicated. Because of the complexity of the cutting process, most of the existing simulated artificial diamonds can only be perfectly round in appearance, which is relatively simple, an...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B28D5/00
Inventor 杨云雄周晓光
Owner ZHEJIANG NEOGLORY JEWELRY CO LTD
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