CN108497638A - Diamond and its pavilion section production method, diamond and its pavilion portion structure - Google Patents

Abstract

The present invention provides a kind of processing method in diamond pavilion portion and the processing method of diamond, is included in pavilion portion and grinds Tipple Bottom valve；The present invention also provides a kind of diamond pavilion portion's structure and diamond pavilion portions, including pavilion portion to have Tipple Bottom valve structure.Through the above steps and structure, bizet, with 48 valve faces, make round bur surface form 97 cut surfaces with 49 valve faces and pavilion portion, to keep light more through diamond transmission, refraction number, the pattern of formation is more novel, special, improves the flicker degree of diamond, sends out bright radiance.By the cooperation of second layer bottom valve and second layer bottom valve, diplocardia side is formd in the sharp position portion in the pavilion portion of diamond (it is thimble to be embodied in second layer bottom valve).

Description

Diamond and its pavilion section production method, diamond and its pavilion portion structure

Technical field

The present invention relates to diamond technique and structure, more particularly to the diamond on a kind of energy diplocardia side and its processing method in pavilion portion And a kind of diamond and its pavilion portion structure.

Background technology

Existing round bur processing method is the processing method of 57 cut surfaces, what the processing methods of 57 cut surfaces processed The cut surface of diamond is few, and light is transmitted through diamond, refraction number is less, and the pattern of formation is more traditional, simple, and radiance are more dim It is light.The pattern that existing diamond cut face is formed is mostly that diamond shape is formed by diverging pattern, although the pattern of formation is also richer Richness, but it is still a kind of shape to routinize, to which the refraction effect formed, obtained radiance are all more dull.

Invention content

First purpose of the invention is the processing method for providing a kind of diamond pavilion portion for overcome the deficiencies in the prior art, It can increase the cut surface of diamond, increase the flicker degree of diamond.

Second purpose of the invention is to provide for a kind of method for processing diamond.

Third purpose of the present invention is to provide for a kind of diamond pavilion portion structure.

4th 1 purpose of the invention is to provide for a kind of diamond with diplocardia side.

In order to achieve the above object, the present invention uses following technical scheme：

A kind of processing method in diamond pavilion portion, includes the following steps:

S1, on the basis of the median plane of the waist, included angle be 41.50-42.0 degree angle the pavilion portion is ground Go out first layer bottom valve；Pinnacle position of the first layer bottom valve around the pavilion portion；

S2, on the basis of the median plane of the waist, included angle be 37.0-38.0 degree angle, to the pavilion portion Sharp position portion carries out flour milling, grinds second layer bottom valve；Pinnacle position of the second layer bottom valve around the pavilion portion；

S3, to the valve face of second layer bottom valve on the basis of the median plane of the waist, included angle 32.0-33.0 The angle of degree carries out the development processing of third layer bottom valve；

S4, on the basis of the median plane of waist, included angle be 32.0-33.0 degree angle, to the point of second layer bottom valve Position portion carries out flour milling, grinds third layer bottom valve；Pinnacle position of the third layer bottom valve around the pavilion portion.

Preferably, in step S1, the pavilion portion is equably ground to 16 valve faces of first layer bottom valve；

In step S2,16 valve faces of second layer bottom valve are relatively ground one by one with 16 valve faces of first layer bottom valve；

In step S4,16 valve faces of third layer bottom valve are relatively ground one by one with 16 valve faces of second layer bottom valve.

Preferably, the height ratio in the height of second layer bottom valve and the pavilion portion is 30%；Third layer bottom valve The height ratio in height and the pavilion portion be 20%.

Preferably, in step S2, with every 2 valve faces for one group, flour milling is carried out to sharp position portion；Second layer bottom valve has even The flour milling included angle in several valve faces, each group valve face is different.

Preferably, in step S2, with every 2 valve faces for one group, flour milling is carried out to sharp position portion；Second layer bottom valve has even The flour milling included angle in several valve faces, each group valve face is different.

Step S2 is specially：

S21, the first valve face for grinding second layer bottom valve, the second valve face；First valve face is adjacent with the second valve face；

S22, the third valve face for grinding second layer bottom valve, pintongs face；Third valve face is separated by two with the first valve face First layer bottom valve, pintongs face and the mutual mirror image in third valve face；

S23, the 5th valve face for grinding second layer bottom valve, the 6th valve face；The 5th valve face is separated by two with third valve face First layer bottom valve, the 6th valve face and the 5th mutual mirror image in valve face；The 5th valve face is adjacent with the 6th valve face；

S24, the 7th valve face for grinding second layer bottom valve, the 8th valve face；The 7th valve face is adjacent with the 5th valve face, described 8th valve face is adjacent with the 6th valve face；

S25, the 9th valve face for grinding second layer bottom valve, the tenth valve face；The 9th valve face is adjacent with the 7th valve face, described Tenth valve face is adjacent with the 8th valve face；

S26, the 11st valve face for grinding second layer bottom valve, the 12nd valve face；The 11st valve face respectively with the 9th valve Face and third valve face are adjacent, and the 12nd valve face is adjacent with the tenth valve face and pintongs face respectively；

S27, the 13rd valve face for grinding second layer bottom valve, the tenth pintongs face；The 13rd valve face and the third valve Face is adjacent, and the tenth pintongs face is adjacent with pintongs face；

S28, the 15th valve face for grinding second layer bottom valve, the 16th valve face；The 15th valve face is respectively with the 13rd Valve face and the first valve face are adjacent, and the 16th valve face is adjacent with the tenth pintongs face and the second valve face respectively.

Preferably, in step S4, with every 2 valve faces for one group, flour milling is carried out to the sharp position portion of second layer bottom valve, is ground Third layer bottom valve；Second layer bottom valve has even number valve face, the flour milling included angle in each group valve face different；The processing in each group valve face Sequence is identical as the processing sequence in valve face of second layer bottom valve.

Preferably, in step S4, with every 2 valve faces for one group, flour milling is carried out to the sharp position portion of second layer bottom valve, is ground Third layer bottom valve；Second layer bottom valve has even number valve face, the flour milling included angle in each group valve face different；The processing in each group valve face Sequence is identical as the processing sequence in valve face of second layer bottom valve；

Step S4 is specially：

S41, the first valve face for grinding third layer bottom valve, the second valve face；First valve face is adjacent with the second valve face；

S42, the third valve face for grinding third layer bottom valve, pintongs face；Third valve face is separated by two with the first valve face First layer bottom valve, pintongs face and the mutual mirror image in third valve face；

S43, the 5th valve face for grinding third layer bottom valve, the 6th valve face；The 5th valve face is separated by two with third valve face First layer bottom valve, the 6th valve face and the 5th mutual mirror image in valve face；The 5th valve face is adjacent with the 6th valve face；

S44, the 7th valve face of third layer bottom valve, the 8th valve face are ground；The 7th valve face is adjacent with the 5th valve face, and described Eight valve faces are adjacent with the 6th valve face；

S45, the 9th valve face of third layer bottom valve, the tenth valve face are ground；The 9th valve face is adjacent with the 7th valve face, and described Ten valve faces are adjacent with the 8th valve face；

S46, the 11st valve face of third layer bottom valve, the 12nd valve face are ground；The 11st valve face respectively with the 9th valve face And third valve face is adjacent, the 12nd valve face is adjacent with the tenth valve face and pintongs face respectively；

S47, the 13rd valve face of third layer bottom valve, the tenth pintongs face are ground；The 13rd valve face and third valve face Adjacent, the tenth pintongs face is adjacent with pintongs face；S58, the 15th valve face of third layer bottom valve, the 16th valve are ground Face；The 15th valve face is adjacent with the 13rd valve face and the first valve face respectively, the 16th valve face respectively with the tenth pintongs Face and the second valve face are adjacent.

A kind of method for processing diamond, include the following steps：

A1, prepare round bur basis blank, round bur basis blank includes bizet, waist and pavilion portion；The table of the bizet Face is the bizet basic side of round bur；

The processing method in the diamond pavilion portion described in A2, implementation claim 1 to 7 any claim.

Preferably, further including step A3：On the basis of the median plane of waist, the angle that included angle is 42.0-44.0 degree Degree grinds elongated valve face in the upper waist facet of bizet and the junction of bizet interarea.

Preferably, the total height in the pavilion portion, the waist and the bizet is the 60%- of the diameter of the waist The thickness of 62.8%, the 57%-60% of a diameter of waist circular diameter of the table top of the bizet, the waist are that waist circle is straight The 2%-3% of diameter.

A kind of pavilion portion structure of diamond, the pavilion portion include the first layer bottom valve from top to bottom arranged, second layer bottom valve and Third layer bottom valve, pinnacle position of the Tipple Bottom valve around the pavilion portion；Second layer bottom lobed is at thimble.

Preferably, the included angle of the valve face of first layer bottom valve and the median plane of the waist is 41.50- 42.0 degree, the included angle of the valve face of second layer bottom valve and the median plane of the waist is 37.0-38.0 degree；The third The valve face of layer bottom valve and the included angle of the median plane of the waist are 32.0-33.0 degree.

Preferably, second layer bottom valve and third layer bottom valve all have following structure：Every layer of bottom valve all has even number valve Face；In every layer of bottom valve, every 2 valve faces are one group, and the flour milling included angle in each group valve face is different；Two valve faces in every group of valve face Mirror image each other.

A kind of diamond with diplocardia side, including round bur basis blank, round bur basis blank include bizet, waist and Pavilion portion；The surface of the bizet is round bur bizet basic side；The structure in the pavilion portion is the claim 11 to claim The pavilion portion structure of diamond described in 13 any claims.

Preferably, the junction of the upper waist facet of the round bur bizet basic side of the bizet and bizet interarea is elongated valve Face.

Preferably, the elongated valve face is 42.0-44.0 degree with the included angle of the waist median plane.

Compared with prior art, the invention has the advantages that：

Through the above steps and structure, bizet, with 48 valve faces, make round bur surface be formed with 49 valve faces and pavilion portion 97 cut surfaces, to keep light more through diamond transmission, refraction number, the pattern of formation is more novel, special, improves brill The flicker degree of stone sends out bright radiance.By the cooperation of second layer bottom valve and second layer bottom valve, the sharp position portion in the pavilion portion of diamond Form diplocardia side (it is thimble to be embodied in second layer bottom valve).

Description of the drawings

Fig. 1 is the schematic diagram for 16 bottom valves that the pavilion portion of diamond is equably ground to first layer valve face.

Fig. 2 is the schematic diagram in the first valve face that second layer bottom valve is ground on the basis of Fig. 1.

Fig. 3 is the schematic diagram in the second valve face that second layer bottom valve is ground on the basis of Fig. 2.

Fig. 4 is the schematic diagram in the third valve face that second layer bottom valve is ground on the basis of Fig. 3.

Fig. 5 is the schematic diagram in the pintongs face that second layer bottom valve is ground on the basis of Fig. 4.

Fig. 6 is by the schematic diagram in the 5th valve face for grinding second layer bottom valve on the basis of Fig. 5.

Fig. 7 is the schematic diagram in the 6th valve face to grinding second layer bottom valve on the basis of Fig. 6.

Fig. 8 is the schematic diagram in the 7th valve face that second layer bottom valve is ground on the basis of Fig. 7.

Fig. 9 is the schematic diagram in the 8th valve face that second layer bottom valve is ground on the basis of Fig. 8.

Figure 10 is the schematic diagram in the 9th valve face that second layer bottom valve is ground on the basis of Fig. 9.

Figure 11 is the schematic diagram in the tenth valve face that second layer bottom valve is ground on the basis of Figure 10.

Figure 12 is the schematic diagram in the 11st valve face that second layer bottom valve is ground on the basis of Figure 11.

Figure 13 is the schematic diagram in the 12nd valve face that second layer bottom valve is ground on the basis of Figure 12.

Figure 14 is the schematic diagram in the 13rd valve face that second layer bottom valve is ground on the basis of Figure 13.

Figure 15 is the schematic diagram in the tenth pintongs face that second layer bottom valve is ground on the basis of Figure 14.

Figure 16 is the schematic diagram in the 15th valve face that second layer bottom valve is ground on the basis of Figure 15.

Figure 17 is the schematic diagram in the 16th valve face that second layer bottom valve is ground on the basis of Figure 16.

Figure 18 is the schematic diagram in the first valve face that third layer bottom valve is ground on the basis of Figure 17.

Figure 19 is the schematic diagram in the second valve face that third layer bottom valve is ground on the basis of Figure 18.

Figure 20 is the schematic diagram in the third valve face that third layer bottom valve is ground on the basis of Figure 19.

Figure 21 is the schematic diagram in the pintongs face that third layer bottom valve is ground on the basis of Figure 20.

Figure 22 is by the schematic diagram in the 5th valve face for grinding third layer bottom valve on the basis of Figure 21.

Figure 23 is the schematic diagram in the 6th valve face to grinding third layer bottom valve on the basis of Figure 22.

Figure 24 is the schematic diagram in the 7th valve face that third layer bottom valve is ground on the basis of Figure 23.

Figure 25 is the schematic diagram in the 8th valve face that third layer bottom valve is ground on the basis of Figure 24.

Figure 26 is the schematic diagram in the 9th valve face that third layer bottom valve is ground on the basis of Figure 25.

Figure 27 is the schematic diagram in the tenth valve face that third layer bottom valve is ground on the basis of Figure 26.

Figure 28 is the schematic diagram in the 11st valve face that third layer bottom valve is ground on the basis of Figure 27.

Figure 29 is the schematic diagram in the 12nd valve face that third layer bottom valve is ground on the basis of Figure 28.

Figure 30 is the schematic diagram in the 13rd valve face that third layer bottom valve is ground on the basis of Figure 29.

Figure 31 is the schematic diagram in the tenth pintongs face that third layer bottom valve is ground on the basis of Figure 30.

Figure 32 is the schematic diagram in the 15th valve face that third layer bottom valve is ground on the basis of Figure 31.

Figure 33 is the schematic diagram in the 16th valve face that third layer bottom valve is ground on the basis of Figure 32.

Figure 34 is the structural schematic diagram of diamond after processing is completed.

Figure 35 is the overlooking structure diagram of Figure 34.

Figure 36 is the structural schematic diagram of the diamond of (bizet does not process elongated valve face) after processing is completed.

Figure 37 is the overlooking structure diagram of Figure 36.

In figure：

1-bizet；11-upper waist star portions；12-elongated valve faces；2-waists；3-pavilion portions；31-first layer valve faces；32— Second layer valve face；33-third layer valve faces.

Specific implementation mode

In conjunction with attached drawing, the invention will be further described with specific embodiment.

Median plane described in text refers to the circular section of the waist half height of diamond, and " median plane " refers both to the circle below Section.

Embodiment 1

A kind of method for processing diamond of the present invention, includes the following steps：

S1, prepare round bur basis blank, round bur basis blank includes that (division at position can for bizet, waist and pavilion portion Referring to Figure 34 and Figure 35)；The surface of described shape bizet is the bizet basic side of round bur；

Refering to Figure 34 Figure 35, the height in pavilion portion 3 is h3, the height of waist 2 is h2 and the height of bizet 1 is h1, three's Total height is the 60% of 2 circular diameter L1 of waist, and the diameter L2 of 1 table top 11 of bizet is the 57% of 2 circular diameter L1 of waist, waist 2 Thickness is the 2% of 2 circular diameter L1 of waist.

The height ratio in the height of second layer bottom valve and the pavilion portion is 30%, the height of third layer bottom valve and the pavilion portion Height is than being 20%.

What is prepared in step S1 is round bur basis blank.Blank can also be directly chosen in fact, and blank is cut； The exterior contour of blank is carried out scraping circle, forms the cylindrical waist of diamond, subconical pavilion portion and waist below waist Platform shape bizet more than portion；And platform shape bizet is cut into the bizet basic side of round bur.

S2, on the basis of the median plane of the waist, the angle that included angle is 41.50 degree pavilion portion is equably ground the One layer of bottom valve, 16 valve faces；Pinnacle position of the first layer bottom valve around the pavilion portion；Referring particularly to Fig. 1.

S3, on the basis of the median plane of the waist, the angle that included angle is 37.0-38.0 degree, with every 2 bottom valves be One group, flour milling is carried out to the sharp position portion in pavilion portion, 16 second layer bottoms are relatively ground one by one with 16 valve faces of first layer bottom valve Valve；Pinnacle position of the second layer bottom valve around the pavilion portion；

The flour milling included angle in each group valve face is different, and as one of embodiment, step S3 is specially：

Refering to Fig. 2 and Fig. 3, S31, on the basis of the median plane of waist, included angle be that 37.1 degree of angle grinds pavilion portion Go out the first valve face of second layer bottom valve, the second valve face；First valve face is adjacent with the second valve face；

Refering to Fig. 4 and Fig. 5, S32, on the basis of the median plane of waist, included angle be that 38.1 degree of angle grinds pavilion portion Go out the third valve face of second layer bottom valve, pintongs face；Third valve face is separated by two first layer bottom valves with the first valve face, described Pintongs face and the mutual mirror image in third valve face；

Refering to Fig. 6 and Fig. 7, S33, on the basis of the median plane of waist, included angle be that 37.3 degree of angle grinds pavilion portion Go out the 5th valve face of second layer bottom valve, the 6th valve face；The 5th valve face is separated by two first layer bottom valves with third valve face, described 6th valve face and the 5th mutual mirror image in valve face；The 5th valve face is adjacent with the 6th valve face；

Refering to Fig. 8 and Fig. 9, S34, on the basis of the median plane of waist, included angle be that 37.4 degree of angle grinds pavilion portion Go out the 7th valve face of second layer bottom valve, the 8th valve face；The 7th valve face is adjacent with the 5th valve face, the 8th valve face and the 6th Valve face is adjacent；

0 and Figure 11 refering to fig. 1, S35, on the basis of the median plane of waist, angle that included angle is 37.5 degree is by pavilion portion Grind the 9th valve face of second layer bottom valve, the tenth valve face；The 9th valve face is adjacent with the 7th valve face, the tenth valve face and the Eight valve faces are adjacent；

2 and Figure 13 refering to fig. 1, S36, on the basis of the median plane of waist, angle that included angle is 37.8 degree is by pavilion portion Grind the 11st valve face of second layer bottom valve, the 12nd valve face；The 11st valve face respectively with the 9th valve face and third valve face Adjacent, the 12nd valve face is adjacent with the tenth valve face and pintongs face respectively；

4 and Figure 15 refering to fig. 1, S37, on the basis of the median plane of waist, angle that included angle is 37.4 degree is by pavilion portion Grind the 13rd valve face of second layer bottom valve, the tenth pintongs face；The 13rd valve face is adjacent with third valve face, and described Ten pintongs faces are adjacent with pintongs face；

6 and Figure 17 refering to fig. 1, S38, on the basis of the median plane of waist, angle that included angle is 37.3 degree is by pavilion portion Grind the 15th valve face of second layer bottom valve, the 16th valve face；The 15th valve face respectively with the 13rd valve face and the first valve Face is adjacent, and the 16th valve face is adjacent with the tenth pintongs face and the second valve face respectively.

S4, to 16 valve faces of second layer bottom valve on the basis of the median plane of waist, included angle be 32.0-33.0 degree Angle carries out the development processing of third layer bottom valve；

S5, on the basis of the median plane of waist, the angle that included angle is 32.0-33.0 degree, with every 2 bottom valves be one Group carries out flour milling to the sharp position portion of second layer bottom valve, third layer bottom is relatively ground one by one with 16 valve faces of second layer bottom valve 16 valve faces of valve；Pinnacle position of the third layer bottom valve around the pavilion portion；

The flour milling included angle in each group valve face is different, and as a kind of specific embodiment, step S5 is specially：

8 and Figure 19 refering to fig. 1, S51, on the basis of the median plane of waist, angle that included angle is 32.1 degree is by pavilion portion Grind the first valve face of third layer bottom valve, the second valve face；First valve face is adjacent with the second valve face；

Refering to Figure 20 and Figure 21, S52, on the basis of the median plane of waist, angle that included angle is 33.1 degree is by pavilion portion Grind the third valve face of third layer bottom valve, pintongs face；Third valve face is separated by two first layer bottom valves, institute with the first valve face State pintongs face and the mutual mirror image in third valve face；

Refering to Figure 22 and Figure 23, S53, on the basis of the median plane of waist, angle that included angle is 32.2 degree is by pavilion portion Grind the 5th valve face of third layer bottom valve, the 6th valve face；The 5th valve face is separated by two first layer bottom valves, institute with third valve face State the 6th valve face and the 5th mutual mirror image in valve face；The 5th valve face is adjacent with the 6th valve face；

Refering to Figure 24 and Figure 25, refering to Fig. 2 and Fig. 3, S54, on the basis of the median plane of waist, included angle be 32.3 degree Angle pavilion portion is ground into the 7th valve face of third layer bottom valve, the 8th valve face；The 7th valve face is adjacent with the 5th valve face, and described Eight valve faces are adjacent with the 6th valve face；

Refering to Figure 26 and Figure 27, S55, on the basis of the median plane of waist, angle that included angle is 32.5 degree is by pavilion portion Grind the 9th valve face of third layer bottom valve, the tenth valve face；The 9th valve face is adjacent with the 7th valve face, the tenth valve face and the 8th Valve face is adjacent；

Refering to Figure 28 and Figure 29, S56, on the basis of the median plane of waist, angle that included angle is 32.7 degree is by pavilion portion Grind the 11st valve face of third layer bottom valve, the 12nd valve face；The 11st valve face respectively with the 9th valve face and third valve face phase Neighbour, the 12nd valve face are adjacent with the tenth valve face and pintongs face respectively；

Refering to Figure 30 and Figure 31, S57, on the basis of the median plane of waist, angle that included angle is 32.8 degree is by pavilion portion Grind the 13rd valve face of third layer bottom valve, the tenth pintongs face；The 13rd valve face is adjacent with third valve face, and the described tenth Pintongs face is adjacent with pintongs face；

Refering to Figure 32 and Figure 33, S58, on the basis of the median plane of waist, angle that included angle is 32.5 degree is by pavilion portion Grind the 15th valve face of third layer bottom valve, the 16th valve face；The 15th valve face respectively with the 13rd valve face and the first valve face Adjacent, the 16th valve face is adjacent with the tenth pintongs face and the second valve face respectively.

S6, on the basis of the median plane of waist, included angle be 42.0-44.0 degree angle bizet upper waist facet with The junction of bizet interarea grinds elongated valve face.The angle of grinding surface of each long side is identical.Step S6 makes bizet increase 16 Ge Office Face.Processing method can also not have step S6, at this point, the bizet of diamond does not have elongated valve face, referring particularly to Figure 36 and Figure 37.

After the completion of the above procedure of processing, the structure of the diamond of formation is as shown in figure 34, including bizet 1, waist 2 and pavilion portion 3, Bizet 1 includes 49 valve faces (if bizet does not grind elongated valve face, i.e. only 33 faces Ge Office, referring particularly to Figure 36 and Figure 37), Waist 2 separates bizet 1 and pavilion portion 3, pavilion portion 3 include 16 valve faces of first layer bottom valve 31, second layer bottom valve 32 16 valve faces (forming thimble), 16 valve faces of third layer bottom valve 33, totally 97, whole valve faces.The diamond that the present invention processes, from pavilion The diplocardia side of visible two centers overlapping is observed in portion, is embodied in the second bottom lobed into thimble.

The embodiment of the processing method in diamond pavilion of the present invention portion step S2 to step S5 for example above.

Embodiment 2

The step of method for processing diamond described in embodiment 2, is other same as Example 1 other than following steps：

The total height in the pavilion portion, the waist and the bizet accounts for the 62.8% of the diameter of the waist, the bizet The diameter of table top account for the 60% of waist circular diameter, the thickness of the waist accounts for the 3% of waist circular diameter.

Embodiment 3

The step of processing method in method for processing diamond described in embodiment 3 and the diamond pavilion portion, is in addition to following steps Except, it is other same as Example 3：

In step S2, on the basis of the median plane of the waist, included angle be 42.0 degree of angle by pavilion portion equably Grind 16 valve faces of first layer bottom valve.

Embodiment 4

The step of processing method of method for processing diamond and the diamond pavilion portion described in embodiment 4, is in addition to following steps Except, it is other same as Example 1：

In step S2, on the basis of the median plane of the waist, included angle be 42.0 degree of angle by pavilion portion equably Grind 16 valve faces of first layer bottom valve.

A kind of diamond with diplocardia side of the present invention, including round bur basis blank, round bur basis blank include hat Portion, waist and pavilion portion；The surface of bizet is round bur bizet basic side.

Refering to fig. 1, the height of bizet 1 is h1, the height of waist 2 is h2, the height in pavilion portion 3 is h3；The total height of three It is the 57%- of 2 circular diameter L1 of waist for the 60%-62.8% of 2 circular diameter L1 of waist, the diameter L2 of the table top 11 of bizet 1 60%, the thickness of waist 2 is the 2%-3% of 2 circular diameter L1 of waist.

Pavilion portion includes that the first layer bottom valve, second layer bottom valve and third layer bottom valve, Tipple Bottom valve from top to bottom arranged surround The pinnacle position in the pavilion portion, second layer bottom lobed is at thimble.The upper waist facet of the round bur bizet basic side of bizet and bizet master The junction in face is elongated valve face.If bizet does not have elongated valve face, for details, reference can be made to Figure 36 and Figure 37.

The height of second layer bottom valve is 30% with the height ratio in pavilion portion；The height of third layer bottom valve and the height ratio in pavilion portion are 20%.

The included angle of the valve face of first layer bottom valve and the median plane of waist is 41.50-42.0 degree, second layer bottom valve The included angle of the median plane of valve face and waist is 37.0-38.0 degree；The folder in the valve face of third layer bottom valve and the median plane of waist Angle angle is 32.0-33.0.Elongated valve face is 42.0-44.0 degree with the included angle of waist median plane.

First layer bottom valve, second layer bottom valve and third layer bottom valve respectively have 16 valve faces；16 valves of second layer bottom valve Face is corresponding with 16 valve faces of first layer bottom valve；16 valve faces of third layer bottom valve are corresponding with 16 valve faces of second layer bottom valve.

In the valve of second layer bottom, every 2 valve faces are one group, and the flour milling included angle in each group valve face is different；In every group of valve face Two valve faces mirror image each other；In the valve of second layer bottom：

First valve face is adjacent with second valve face；Third valve face is separated by two first layer bottom valves with first valve face, 4th valve face and the mutual mirror image in third valve face；5th valve face and third valve face are separated by two first layer bottom valves, and the 6th A valve face and the 5th mutual mirror image in valve face；5th valve face is adjacent with the 6th valve face；7th valve face and the 5th valve face Adjacent, the 8th valve face is adjacent with the 6th valve face；9th valve face is adjacent with the 7th valve face, the tenth valve face and the 8th valve Face is adjacent；11st valve face is adjacent with the 9th valve face and third valve face respectively, the 12nd valve face respectively with the tenth Valve face and the 4th valve face are adjacent；13rd valve face is adjacent with third valve face, the 14th valve face and the 4th valve face phase It is adjacent；15th valve face is adjacent with the 13rd valve face and first valve face respectively, the 16th valve face respectively with the 14th Valve face and second valve face are adjacent.

In the valve of third layer bottom, every 2 valve faces are one group, and the flour milling included angle in each group valve face is different；In every group of valve face Two valve faces mirror image each other；In the valve of third layer bottom：

First valve face is adjacent with second valve face；Third valve face is separated by two first layer bottom valves with first valve face, 4th valve face and the mutual mirror image in third valve face；5th valve face and third valve face are separated by two first layer bottom valves, and the 6th A valve face and the 5th mutual mirror image in valve face；5th valve face is adjacent with the 6th valve face；7th valve face and the 5th valve face Adjacent, the 8th valve face is adjacent with the 6th valve face；9th valve face is adjacent with the 7th valve face, the tenth valve face and the 8th valve Face is adjacent；11st valve face is adjacent with the 9th valve face and third valve face respectively, the 12nd valve face respectively with the tenth Valve face and the 4th valve face are adjacent；13rd valve face is adjacent with third valve face, the 14th valve face and the 4th valve face phase It is adjacent；15th valve face is adjacent with the 13rd valve face and first valve face respectively, the 16th valve face respectively with the 14th Valve face and second valve face are adjacent.

Diamond of the present invention with diplocardia side, bizet 1 include 49 faces Ge Office (if bizet does not grind elongated valve Face, i.e. only 33 faces Ge Office, referring particularly to Figure 36 and Figure 37), waist 2 separates bizet 1 and pavilion portion 3, and pavilion portion 3 includes first layer bottom 16 valve faces of valve 31,16 valve faces (forming thimble) of second layer bottom valve, 16 valve faces of third layer bottom valve 33, whole valves Totally 97, face.The diamond that the present invention processes observes the diplocardia side that visible two centers are overlapped from pavilion portion, is embodied in the second bottom Lobed is at thimble.

Diamond pavilion of the present invention portion structure specifically has the pavilion portion structure of the diamond on diplocardia side as described herein.

The invention is not limited in the above embodiments, if not departing from the present invention to the various changes or modifications of the present invention Spirit and scope, if these modification and variations belong within the scope of the claim and equivalent technologies of the present invention, then this hair It is bright to be also intended to comprising these changes and change.

Claims (16)

1. a kind of processing method in diamond pavilion portion, which is characterized in that include the following steps:

S1, on the basis of the median plane of the waist, the angle that included angle is 41.50-42.0 degree the pavilion portion is ground the One layer of bottom valve；Pinnacle position of the first layer bottom valve around the pavilion portion；

S2, on the basis of the median plane of the waist, included angle be 37.0-38.0 degree angle, to the sharp position in the pavilion portion Portion carries out flour milling, grinds second layer bottom valve；Pinnacle position of the second layer bottom valve around the pavilion portion；

S3, to the valve face of second layer bottom valve on the basis of the median plane of the waist, included angle be 32.0-33.0 degree Angle carries out the development processing of third layer bottom valve；

S4, on the basis of the median plane of waist, included angle be 32.0-33.0 degree angle, to the sharp position portion of second layer bottom valve Flour milling is carried out, third layer bottom valve is ground；Pinnacle position of the third layer bottom valve around the pavilion portion.

2. the processing method in diamond pavilion according to claim 1 portion, which is characterized in that

In step S1, the pavilion portion is equably ground to 16 valve faces of first layer bottom valve；

In step S2,16 valve faces of second layer bottom valve are relatively ground one by one with 16 valve faces of first layer bottom valve；

In step S4,16 valve faces of third layer bottom valve are relatively ground one by one with 16 valve faces of second layer bottom valve.

3. the processing method in diamond pavilion according to claim 1 portion, which is characterized in that

The height ratio in the height of second layer bottom valve and the pavilion portion is 30%；The height of third layer bottom valve and the pavilion The height ratio in portion is 20%.

4. the processing method in diamond pavilion according to claim 1 or 2 portion, which is characterized in that

In step S2, with every 2 valve faces for one group, flour milling is carried out to sharp position portion；Second layer bottom valve has even number valve face, each group The flour milling included angle in valve face is different.

5. the processing method in diamond pavilion according to claim 2 portion, which is characterized in that

In step S2, with every 2 valve faces for one group, flour milling is carried out to sharp position portion；Second layer bottom valve has even number valve face, each group The flour milling included angle in valve face is different；

Step S2 is specially：

S21, the first valve face for grinding second layer bottom valve, the second valve face；First valve face is adjacent with the second valve face；

S22, the third valve face for grinding second layer bottom valve, pintongs face；Third valve face is separated by two first with the first valve face Layer bottom valve, pintongs face and the mutual mirror image in third valve face；

S23, the 5th valve face for grinding second layer bottom valve, the 6th valve face；The 5th valve face is separated by two first with third valve face Layer bottom valve, the 6th valve face and the 5th mutual mirror image in valve face；The 5th valve face is adjacent with the 6th valve face；

S24, the 7th valve face for grinding second layer bottom valve, the 8th valve face；The 7th valve face is adjacent with the 5th valve face, and the described 8th Valve face is adjacent with the 6th valve face；

S25, the 9th valve face for grinding second layer bottom valve, the tenth valve face；The 9th valve face is adjacent with the 7th valve face, and the described tenth Valve face is adjacent with the 8th valve face；

S26, the 11st valve face for grinding second layer bottom valve, the 12nd valve face；The 11st valve face respectively with the 9th valve face and Third valve face is adjacent, and the 12nd valve face is adjacent with the tenth valve face and pintongs face respectively；

S27, the 13rd valve face for grinding second layer bottom valve, the tenth pintongs face；The 13rd valve face and third valve face phase Neighbour, the tenth pintongs face are adjacent with pintongs face；

S28, the 15th valve face for grinding second layer bottom valve, the 16th valve face；The 15th valve face respectively with the 13rd valve face And first valve face it is adjacent, the 16th valve face is adjacent with the tenth pintongs face and the second valve face respectively.

6. the processing method in diamond pavilion according to claim 1 or 2 portion, which is characterized in that

In step S4, with every 2 valve faces for one group, flour milling is carried out to the sharp position portion of second layer bottom valve, grinds third layer bottom valve；The Two layers of bottom valve have even number valve face, the flour milling included angle in each group valve face different；The processing sequence and the second layer in each group valve face The processing sequence in the valve face of bottom valve is identical.

7. the processing method in diamond pavilion according to claim 2 portion, which is characterized in that

In step S4, with every 2 valve faces for one group, flour milling is carried out to the sharp position portion of second layer bottom valve, grinds third layer bottom valve；The Two layers of bottom valve have even number valve face, the flour milling included angle in each group valve face different；The processing sequence and the second layer in each group valve face The processing sequence in the valve face of bottom valve is identical；

Step S4 is specially：

S41, the first valve face for grinding third layer bottom valve, the second valve face；First valve face is adjacent with the second valve face；

S42, the third valve face for grinding third layer bottom valve, pintongs face；Third valve face is separated by two first with the first valve face Layer bottom valve, pintongs face and the mutual mirror image in third valve face；

S43, the 5th valve face for grinding third layer bottom valve, the 6th valve face；The 5th valve face is separated by two first with third valve face Layer bottom valve, the 6th valve face and the 5th mutual mirror image in valve face；The 5th valve face is adjacent with the 6th valve face；

S44, the 7th valve face of third layer bottom valve, the 8th valve face are ground；The 7th valve face is adjacent with the 5th valve face, the 8th valve Face is adjacent with the 6th valve face；

S45, the 9th valve face of third layer bottom valve, the tenth valve face are ground；The 9th valve face is adjacent with the 7th valve face, the tenth valve Face is adjacent with the 8th valve face；

S46, the 11st valve face of third layer bottom valve, the 12nd valve face are ground；The 11st valve face respectively with the 9th valve face and Three valve faces are adjacent, and the 12nd valve face is adjacent with the tenth valve face and pintongs face respectively；

S47, the 13rd valve face of third layer bottom valve, the tenth pintongs face are ground；The 13rd valve face is adjacent with third valve face, The tenth pintongs face is adjacent with pintongs face；S58, the 15th valve face of third layer bottom valve, the 16th valve face are ground；It is described 15th valve face is adjacent with the 13rd valve face and the first valve face respectively, the 16th valve face respectively with the tenth pintongs face and second Valve face is adjacent.

8. a kind of method for processing diamond, which is characterized in that include the following steps：

A1, prepare round bur basis blank, round bur basis blank includes bizet, waist and pavilion portion；The surface of the bizet is The bizet basic side of round bur；

The processing method in the diamond pavilion portion described in A2, implementation claim 1 to 7 any claim.

9. method for processing diamond according to claim 8, which is characterized in that further include step A3：With the median plane of waist On the basis of, included angle be 42.0-44.0 degree angle ground in the upper waist facet of bizet and the junction of bizet interarea it is elongated Valve face.

10. method for processing diamond according to claim 8 or claim 9, which is characterized in that the pavilion portion, the waist and described The total height of bizet is the 60%-62.8% of the diameter of the waist, a diameter of waist circular diameter of the table top of the bizet 57%-60%, the thickness of the waist are the 2%-3% of waist circular diameter.

11. a kind of pavilion portion structure of diamond, which is characterized in that the pavilion portion includes the first layer bottom valve from top to bottom arranged, Two layers of bottom valve and third layer bottom valve, pinnacle position of the Tipple Bottom valve around the pavilion portion；Second layer bottom lobed is at thimble.

12. the pavilion portion structure of diamond according to claim 11, which is characterized in that

The included angle of the valve face of first layer bottom valve and the median plane of the waist is 41.50-42.0 degree, described second The valve face of layer bottom valve and the included angle of the median plane of the waist are 37.0-38.0 degree；The valve face of third layer bottom valve with The included angle of the median plane of the waist is 32.0-33.0 degree.

13. the pavilion portion structure of diamond according to claim 11 or 12, which is characterized in that

Second layer bottom valve and third layer bottom valve all have following structure：Every layer of bottom valve all has even number valve face；In every layer of bottom valve, Every 2 valve faces are one group, and the flour milling included angle in each group valve face is different；Two valve faces in every group of valve face mirror image each other.

14. a kind of diamond with diplocardia side, which is characterized in that including round bur basis blank, round bur basis blank includes Bizet, waist and pavilion portion；The surface of the bizet is round bur bizet basic side；The structure in the pavilion portion is the claim 11 To the pavilion portion structure of the diamond described in claim 13 any claim.

15. the diamond according to claim 14 with diplocardia side, which is characterized in that

The upper waist facet of the round bur bizet basic side of the bizet is elongated valve face with the junction of bizet interarea.

16. the diamond according to claim 15 with diplocardia side, which is characterized in that

The elongated valve face is 42.0-44.0 degree with the included angle of the waist median plane.