CN207220331U - Diamond and its booth portion structure with heart side - Google Patents
Diamond and its booth portion structure with heart side Download PDFInfo
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- CN207220331U CN207220331U CN201720534582.0U CN201720534582U CN207220331U CN 207220331 U CN207220331 U CN 207220331U CN 201720534582 U CN201720534582 U CN 201720534582U CN 207220331 U CN207220331 U CN 207220331U
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Abstract
The utility model provides a kind of booth portion structure of diamond, the booth portion includes at least four layers of bottom valve, including from bottom to top adjacent first layer bottom valve, second layer bottom valve, third layer bottom valve, the 4th layer of bottom valve successively, the bottom valve is around the pinnacle in booth portion position, first layer bottom valve is heart-shaped for one, and second layer bottom valve, third layer bottom valve form thimble respectively.A kind of diamond with heart side is also provided.By above-mentioned steps and structure, light is transmitted through diamond, reflect that number is more, the pattern of formation is more novel, especially, improves the flicker degree of diamond.
Description
Technical field
It the utility model is related to diamond technique and structure, more particularly to a kind of diamond and its booth portion structure with heart side.
Background technology
Existing round bur processing method for 57 cut surfaces processing method, what the processing methods of 57 cut surfaces processed
The cut surface of diamond is few, and light transmits through diamond, reflects that number is less, and the pattern of formation more tradition, simple, radiance are more dim
It is light.The pattern that existing diamond cut face is formed is mostly the diverging pattern that diamond shape is formed, although the pattern of formation is also richer
Richness, but a kind of shape to routinize is still, so that the refraction effect formed, obtained radiance are all more dull.
Utility model content
First purpose of the utility model be in order to overcome the deficiencies of the prior art and provide a kind of diamond booth portion structure, its
The cut surface of diamond can be increased, increase the flicker degree of diamond.
Second purpose of the utility model is to provide for a kind of diamond with heart side.
In order to achieve the above object, the utility model uses following technical scheme:
A kind of booth portion structure of diamond, the booth portion include at least four layers of bottom valve, including from bottom to top successively adjacent
One layer of bottom valve, second layer bottom valve, third layer bottom valve, the 4th layer of bottom valve, the bottom valve is around the pinnacle in booth portion position;Described
One layer of bottom valve is heart-shaped for one, and second layer bottom valve, third layer bottom valve form thimble respectively.
Preferably, there are four layers of bottom valve in the booth portion.
Preferably, the valve face of the 4th layer of bottom valve and the angle angle of the median plane of the waist of the diamond are
41.50-42.0 degree, or/and the valve face of third layer bottom valve is with the angle angle of the median plane of the waist of the diamond
37.0-38.0 degree;Or/and the valve face of second layer bottom valve and the angle angle of the median plane of the waist of the diamond are
32.0-33.0 degree, or/and the valve face of second layer bottom valve is with the angle angle of the median plane of the waist of the diamond
29.0-30.0 degree.
Preferably, second layer bottom valve, third layer bottom valve and first layer bottom valve all have with lower structure:Every layer of bottom valve all has
There is even number valve face;In every layer of bottom valve, every 2 valve faces are one group, and the flour milling angle angle in each group valve face is different;In every group of valve face
Two valve faces mirror image each other.
Preferably, the height ratio in the height of second layer bottom valve and the booth portion is 30~32%.
Preferably, the height ratio in the height of third layer bottom valve and the booth portion is 50~51%.
Preferably, the height ratio in the height of first layer bottom valve and the booth portion is 20~33%.
Preferably, the handing-over line of adjacent bottom valve is cardioid;The height of first layer bottom valve and the height in the booth portion
Degree is than being 20~33%.
A kind of diamond with heart side, including diamond main body, the diamond main body include bizet, waist and booth portion;It is described
The surface of bizet is round bur bizet basic side;The structure in the booth portion will for the claim 1 to any right of claim 8
Seek the booth portion structure of the diamond.
Preferably, the kite face of the bizet separates the two points of facets to be formed, including first point of quarter by separator bar
Face and second point of facet, waist of first point of facet relative to second point of facet close to diamond;In first point of facet and waist
The angle angle in heart face is 39.0-40.0 degree, and the angle angle of the median plane of second point of facet and waist is 34.0-36.0 degree;
Separator bar is the diagonal in kite face.
Compared with prior art, the utility model has the advantages that:
By said structure, bizet, with 64 valve faces, makes round bur surface form 105 valves with 41 valve faces and booth portion
Face, so that light transmits through diamond, reflects that number is more, the pattern of formation is more novel, especially, improves the flicker of diamond
Degree, sends bright radiance.By the cooperation of second layer bottom valve, the second layer bottom valve, the 4th bottom valve, in the sharp position portion in the booth portion of diamond
Three-core side is formd, so as to observe the pattern that diplocardia ring and middle part heart can be achieved in bizet, special refraction effect is realized, reaches
To the anaclasis of heart overlapping and the combination of pattern.
Brief description of the drawings
Fig. 1 is the schematic diagram for 16 bottom valves that the booth portion of diamond is equably ground to first layer bottom valve.
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 3rd 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 that second layer bottom valve is ground on the basis of Fig. 5.
Fig. 7 is the schematic diagram to grinding the 6th valve face of 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 3rd 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 that third layer bottom valve is ground on the basis of Figure 21.
Figure 23 is the schematic diagram to grinding the 6th valve face of 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 schematic diagram in the first valve face for processing first layer bottom valve;
Figure 35 is the schematic diagram in the second valve face for processing first layer bottom valve;
Figure 36 is the schematic diagram in the 3rd valve face for processing first layer bottom valve;
Figure 37 is the schematic diagram in the pintongs face for processing first layer bottom valve;
Figure 38 is the schematic diagram in the 5th valve face for processing first layer bottom valve;
Figure 39 is the schematic diagram in the 6th valve face for processing first layer bottom valve;
Figure 40 is the schematic diagram in the 7th valve face for processing first layer bottom valve;
Figure 41 is the schematic diagram in the 8th valve face for processing first layer bottom valve;
Figure 42 is the schematic diagram in the 9th valve face for processing first layer bottom valve;
Figure 43 is the schematic diagram in the tenth valve face for processing first layer bottom valve;
Figure 44 is the schematic diagram in the 11st valve face for processing first layer bottom valve;
Figure 45 is the schematic diagram in the 12nd valve face for processing first layer bottom valve;
Figure 46 is the schematic diagram in the 13rd valve face for processing first layer bottom valve;
Figure 47 is the schematic diagram in the tenth pintongs face for processing first layer bottom valve;
Figure 48 is the schematic diagram in the 15th valve face for processing first layer bottom valve;
Figure 49 is the schematic diagram in the 16th valve face for processing first layer bottom valve;
Figure 50 is the booth portion schematic diagram described in the utility model with heart side diamond;
Figure 51 is the bizet schematic diagram described in the utility model with heart side diamond.
Figure 52 is the structure diagram described in the utility model with heart side diamond.
Figure 53 is that (the kite face of bizet is not divided into two to the structure diagram described in the utility model with heart side diamond
Divide facet).
In figure:
1-bizet;11-kite face;12-elongated valve face;2-waist;3-booth portion;31-first layer bottom valve;32-the
Two layers of bottom valve;33-third layer bottom valve;34-the four layer of bottom valve.
Embodiment
In conjunction with attached drawing, the utility model is described in further detail 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.
A kind of diamond with heart side described in the utility model, including diamond main body, diamond main body include bizet, waist
And booth portion;The surface of bizet is round bur bizet basic side.
Refering to Figure 50 to 52, the height of bizet 1 is h1, the height of waist 2 is h2, the height in booth portion 3 is h3;Three's is total
Highly it is the 60%-62.8% of 2 circular diameter L1 of waist, the diameter L2 of 1 table top 11 of bizet is 2 circular diameter L1's of waist
57.5%-59.5%, the thickness of waist 2 are the 2.2%-3.2% of 2 circular diameter L1 of waist.
Booth portion includes at least four layers of bottom valve.By taking four layers of bottom valve as an example:
Including from bottom to top adjacent first layer bottom valve, second layer bottom valve, third layer bottom valve, the 4th layer of bottom valve successively, institute
Bottom valve is stated around the pinnacle in booth portion position;First layer bottom valve is heart-shaped for one, and second layer bottom valve, third layer bottom valve form the heart respectively
Shape ring.
As a kind of preferred embodiment, the kite face of bizet separates the two points of facets to be formed, including by separator bar
One point of facet and second point of facet, waist of first point of facet relative to second point of facet close to diamond;First point of facet and waist
The angle angle of the median plane in portion is 39.0-40.0 degree, and the angle angle of the median plane of second point of facet and waist is 34.0-
36.0 degree.Separator bar is the diagonal in kite face.If the kite face of bizet is not divided into two points of facets, Figure 53 for details, reference can be made to.
The height ratio in the height of second layer bottom valve and the booth portion is 30~32%;Or/and the height of third layer bottom valve with
The height ratio in the booth portion is 50~51%;Or/and the height ratio in the height of first layer bottom valve and the booth portion is 20~33%.
The angle angle of the valve face of 4th layer of bottom valve and the median plane of waist is 40.50-41.2 degree, third layer bottom valve
The angle angle of the median plane of valve face and waist is 37.0-38.0 degree;The valve face of second layer bottom valve and the folder of the median plane of waist
Angle angle is 32.0-33.0 degree, and the angle angle of the valve face of second layer bottom valve and the median plane of waist is 29.0-30.0 degree.The
One layer of bottom valve, second layer bottom valve, third layer bottom valve and the 4th layer of bottom valve each 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.
16 valve faces of the 4th layer of bottom valve are corresponding with 16 valve faces of third layer bottom valve.
In the valve of third layer bottom, every 2 valve faces are one group, and the flour milling angle 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;3rd valve face is separated by two first layer bottom valves with first valve face,
4th valve face and the 3rd mutual mirror image in valve face;5th valve face and the 3rd 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 the 3rd 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 the 3rd 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 second layer bottom, every 2 valve faces are one group, and the flour milling angle 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;3rd valve face is separated by two first layer bottom valves with first valve face,
4th valve face and the 3rd mutual mirror image in valve face;5th valve face and the 3rd 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 the 3rd 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 the 3rd 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 first layer bottom, every 2 valve faces are one group, and the flour milling angle 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 first layer bottom:
The basic valve face in the first valve face and the basic valve face in the second valve face be separated by the basic valve face of three second layer bottom valves and
Mirror image each other;The basic valve face in the 3rd valve face is adjacent with the basic valve face in the first valve face, the basic valve face and the 3rd in pintongs face
The basic mutual mirror image in valve face in valve face;The basic valve face in the 5th valve face is adjacent with the basic valve face in the first valve face, the 6th valve face
The basic mutual mirror image in valve face in basic valve face and the 5th valve face;The basic valve face phase in the basic valve face and the 5th valve face in the 7th valve face
Neighbour, the basic valve face in the 8th valve face and the basic valve face in the 7th valve face mirror image each other;The basic valve face in the 9th valve face and the 7th valve
The basic valve face in face is adjacent, the basic valve face in the tenth valve face and the basic valve face in the 9th valve face mirror image and adjacent each other;11st
The basic valve face in valve face is adjacent with the basic valve face in the 3rd valve face, the basic valve face in the 12nd valve face and the basis in the 11st valve face
Valve face mirror image each other;The basic valve face in the 13rd valve face is adjacent with the basic valve face in the 11st valve face, the basis in the tenth pintongs face
The basic valve face in valve face and the 13rd valve face mirror image each other;The basic valve face in the 15th valve face and the basic valve face in the 13rd valve face
It is adjacent, the basic valve face in the 16th valve face and the basic valve face in the 15th valve face mirror image and adjacent each other.
Diamond described in the utility model with heart side, bizet 1 include 41 Ge Office faces (if bizet does not grind elongated valve
Face, i.e. only 33 Ge Office faces, referring particularly to Figure 53), waist 2, which separates bizet 1 and booth portion 3, booth portion 3, includes first layer bottom valve 31
16 valve faces, 16 valve faces of second layer bottom valve, 16 valve faces of third layer bottom valve 33,16 valves of the 4th layer of bottom valve 34
Face, totally 105, whole valve faces.The diamond that the utility model processes, the overlapping three-core in visible two centers is observed from booth portion
Side, is embodied in second layer bottom valve, third layer bottom lobed into thimble.
Multiple hearts further increase the reflective functions of diamond, and improve in the structure diamond of (during at least three hearts)
The flicker degree and fire that diamond can produce are color, make diamond in addition to more aesthetically pleasing as common ornaments, can be used as a kind of light
Refractive element is applied in more more occasions, and more useful implementation tool and research technique are provided for light experiment.The utility model
The diamond with heart side, due to multiple heart sides, enabling the refraction effect of whole diamond to produce multiple heart
Pattern, highlights heart-shaped refraction effect.
Diamond booth portion structure described in the utility model is specifically such as the booth portion of the diamond described in the utility model with heart side
Structure.
A kind of method for processing diamond described in the utility model, is illustrated by the following examples.
Embodiment 1
A kind of method for processing diamond described in the utility model, comprises the following steps:
S1, prepare round bur basis blank, and round bur basis blank includes bizet, waist and booth portion, and (division at position can
Referring to Figure 52);The surface of described shape bizet is the bizet basic side of round bur;
Refering to Figure 52, the height in booth portion 3 is h3, the height of waist 2 is h2 and the height of bizet 1 is h1, total height of three
Spend for the 60% of 2 circular diameter L1 of waist, the diameter L2 of 1 table top 11 of bizet is the 57.5% of 2 circular diameter L1 of waist, the thickness of waist 2
Spend for the 2.2% of 2 circular diameter L1 of waist.
S2, on the basis of the median plane of the waist, angle angle for 40.50-41.2 degree angle by booth portion equably
Grind the basic valve face in 16 valve faces of the 4th layer of bottom valve;The basic valve face of 4th layer of bottom valve is around the pinnacle in booth portion position;Tool
Body refers to Fig. 1.
S3, on the basis of the median plane of the waist, the angle that angle angle is 37.0-38.0 degree, using every 2 bottom valves as
One group, flour milling is carried out to the basic valve face of the 4th layer of bottom valve, the 3rd is relatively ground one by one with 16 valve faces of the 4th layer of bottom valve
The basic valve face in 16 valve faces of layer bottom valve, and form the 4th layer of bottom valve;The basic valve face of third layer bottom valve surrounds the booth portion
Pinnacle position;The handing-over line of the basic valve face of third layer bottom valve and the 4th layer of bottom valve is heart;
The flour milling angle 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, angle angle be that 37.1 degree of angle grinds booth portion
Go out the basic valve face in the first valve face of third layer bottom valve, the basic valve face in the second valve face;The basic valve face in the first valve face with
The basic valve face in the second valve face is adjacent;
Refering to Fig. 4 and Fig. 5, S32, on the basis of the median plane of waist, angle angle be that 38.1 degree of angle grinds booth portion
Go out the basic valve face in the 3rd valve face of third layer bottom valve, the basic valve face in pintongs face;The basic valve face in the 3rd valve face with
The basic valve face in the first valve face is separated by the basic valve face of two first layer bottom valves, basic valve face and the 3rd valve in the pintongs face
The basic mutual mirror image in valve face in face;
Refering to Fig. 6 and Fig. 7, S33, on the basis of the median plane of waist, angle angle be that 37.3 degree of angle grinds booth portion
Go out the basic valve face in the 5th valve face of third layer bottom valve, the basic valve face in the 6th valve face;The basic valve face in the 5th valve face with
The basic valve face in the 3rd valve face is separated by the basic valve face of two first layer bottom valves, basic valve face and the 5th valve in the 6th valve face
The basic mutual mirror image in valve face in face;The basic valve face in the 5th valve face is adjacent with the basic valve face in the 6th valve face;
Refering to Fig. 8 and Fig. 9, S34, on the basis of the median plane of waist, angle angle be that 37.4 degree of angle grinds booth portion
Go out the basic valve face in the 7th valve face of third layer bottom valve, the basic valve face in the 8th valve face;The basic valve face in the 7th valve face with
The basic valve face in the 5th valve face is adjacent, and the basic valve face in the 8th valve face is adjacent with the basic valve face in the 6th valve face;
Refering to Figure 10 and Figure 11, S35, on the basis of the median plane of waist, angle that angle angle is 37.5 degree is by booth portion
Grind the basic valve face in the 9th valve face of third layer bottom valve, the basic valve face in the tenth valve face;The basic valve face in the 9th valve face
Adjacent with the basic valve face in the 7th valve face, the basic valve face in the tenth valve face is adjacent with the basic valve face in the 8th valve face;
Refering to Figure 12 and Figure 13, S36, on the basis of the median plane of waist, angle that angle angle is 37.8 degree is by booth portion
Grind the basic valve face in the 11st valve face of third layer bottom valve, the basic valve face in the 12nd valve face;The base in the 11st valve face
Plinth valve face is adjacent with the basic valve face in basic the valve face and the 3rd valve face in the 9th valve face respectively, the basic valve in the 12nd valve face
Face is adjacent with the basic valve face in basic the valve face and pintongs face in the tenth valve face respectively;
Refering to Figure 14 and Figure 15, S37, on the basis of the median plane of waist, angle that angle angle is 37.4 degree is by booth portion
Grind the basic valve face in the 13rd valve face of third layer bottom valve, the basic valve face in the tenth pintongs face;The base in the 13rd valve face
Plinth valve face is adjacent with the basic valve face in the 3rd valve face, the basic valve face in the tenth pintongs face and the base in the pintongs face
Plinth valve face is adjacent;
Refering to Figure 16 and Figure 17, S38, on the basis of the median plane of waist, angle that angle angle is 37.3 degree is by booth portion
Grind the basic valve face in the 15th valve face of third layer bottom valve, the basic valve face in the 16th valve face;The base in the 15th valve face
Plinth valve face is adjacent with the basic valve face in the 13rd valve face and the basic valve face in the first valve face respectively, the basis in the 16th valve face
Valve face is adjacent with the basic valve face in the tenth pintongs face and the basic valve face in the second valve face respectively.
S4, to 16 valve faces of third layer bottom valve on the basis of the median plane of waist, angle angle be 32.0-33.0 degree
Angle carries out the development processing of second layer bottom valve;
S5, on the basis of the median plane of waist, the angle that angle angle is 32.0-33.0 degree, using every 2 bottom valves as one
Group, flour milling is carried out to the basis of third layer bottom valve, forms the valve face of third layer bottom valve, and with 16 valve faces one of third layer bottom valve
One relatively grinds the basic valve face in 16 valve faces of second layer bottom valve;The basic valve face of second layer bottom valve is around the booth portion
Pinnacle position;The basic valve face of second layer bottom valve is heart with the handing-over line of third layer bottom valve;The flour milling angle angle in each group valve face
Difference,
As a kind of specific embodiment, step S5 is specially:
Refering to Figure 18 and Figure 19, S51, on the basis of the median plane of waist, angle that angle angle is 32.1 degree is by booth portion
Grind the basic valve face in the first valve face of second layer bottom valve, the basic valve face in the second valve face;The basic valve face in the first valve face
It is adjacent with the basic valve face in the second valve face;
Refering to Figure 20 and Figure 21, S52, on the basis of the median plane of waist, angle that angle angle is 33.1 degree is by booth portion
Grind the basic valve face in the 3rd valve face of second layer bottom valve, the basic valve face in pintongs face;The basic valve face in the 3rd valve face
It is separated by the basic valve face of two first layer bottom valves, the basic valve face and the 3rd in the pintongs face with the basic valve face in the first valve face
The basic mutual mirror image in valve face in valve face;
Refering to Figure 22 and Figure 23, S53, on the basis of the median plane of waist, angle that angle angle is 32.2 degree is by booth portion
Grind the basic valve face in the 5th valve face of second layer bottom valve, the basic valve face in the 6th valve face;The basic valve face in the 5th valve face
It is separated by the basis 8 years of two first layer bottom valves, the basic valve face and the 5th in the 6th valve face with the basic valve face face of the 3rd valve
The basic mutual mirror image in valve face in valve face;The basic valve face in the 5th valve face is adjacent with the basic valve face in 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, angle angle be 32.3 degree
Angle booth portion is ground to the basic valve face in the 7th valve face of third layer bottom valve, the basic valve face in the 8th valve face;The 7th valve face
Basic valve face it is adjacent with the basic valve face in the 5th valve face, the basic valve face in the 8th valve face and the basic valve face in the 6th valve face
It is adjacent;
Refering to Figure 26 and Figure 27, S55, on the basis of the median plane of waist, angle that angle angle is 32.5 degree is by booth portion
Grind the basic valve face in the 9th valve face of second layer bottom valve, the basic valve face in the tenth valve face;The basic valve face in the 9th valve face with
The basic valve face in the 7th valve face is adjacent, and the basic valve face in the tenth valve face is adjacent with the basic valve face in the 8th valve face;
Refering to Figure 28 and Figure 29, S56, on the basis of the median plane of waist, angle that angle angle is 32.7 degree is by booth portion
Grind the basic valve face in the 11st valve face of second layer bottom valve, the basic valve face in the 12nd valve face;The basis in the 11st valve face
Valve face is adjacent with the basic valve face in basic the valve face and the 3rd valve face in the 9th valve face respectively, the basic valve face in the 12nd valve face
It is adjacent with the basic valve face in basic the valve face and pintongs face in the tenth valve face respectively;
Refering to Figure 30 and Figure 31, S57, on the basis of the median plane of waist, angle that angle angle is 32.8 degree is by booth portion
Grind the basic valve face in the 13rd valve face of second layer bottom valve, the basic valve face in the tenth pintongs face;The basis in the 13rd valve face
Valve face is adjacent with the basic valve face in the 3rd valve face, the basic valve face in the tenth pintongs face and the basis in the pintongs face
Valve face is adjacent;
Refering to Figure 32 and Figure 33, S58, on the basis of the median plane of waist, angle that angle angle is 32.5 degree is by booth portion
Grind the basic valve face in the 15th valve face of second layer bottom valve, the basic valve face in the 16th valve face;The basis in the 15th valve face
Valve face is adjacent with the basic valve face in the 13rd valve face and the basic valve face in the first valve face respectively, the basic valve in the 16th valve face
Face is adjacent with the basic valve face in the tenth pintongs face and the basic valve face in the second valve face respectively.
S6, on the basis of the median plane of the waist, angle angle be 29.0-30.0 degree angle, using every 2 valve faces as
One group, flour milling is carried out to the basic valve face of second layer bottom valve, grinds first layer bottom valve, and form the valve face of the second bottom valve;First
Layer bottom valve is around the pinnacle in booth portion position;The handing-over line of first layer bottom valve and second layer bottom valve is heart.The mill in each group valve face
Face angle angle is different.
On the manufacturing procedure in the valve face of the first layer bottom valve of step S6, Figure 34 to Figure 49 is may be referred to, it is specific as follows:
With reference to figure 34 and Figure 35, S51, on the basis of the median plane of waist, angle that angle angle is 29.1 degree is by booth portion
Grind the basic valve face in the first valve face of second layer bottom valve, the basic valve face in the second valve face;The basic valve face in the first valve face
It is separated by the basic valve face of three second layer bottom valves and mirror image each other with the basic valve face in the second valve face;
With reference to figure 36 and Figure 37, S52, on the basis of the median plane of waist, angle that angle angle is 29.2 degree is by booth portion
Grind the basic valve face in the 3rd valve face of second layer bottom valve, the basic valve face in pintongs face;The basic valve face in the 3rd valve face
It is adjacent with the basic valve face in the first valve face, the basic valve face in the pintongs face and the basic mutual mirror image in valve face in the 3rd valve face;
With reference to figure 38 and Figure 39, S53, on the basis of the median plane of waist, angle that angle angle is 29.3 degree is by booth portion
Grind the basic valve face in the 5th valve face of second layer bottom valve, the basic valve face in the 6th valve face;The basic valve face in the 5th valve face
It is adjacent with the basic valve face in the first valve face, the basic valve face in the 6th valve face and the basic mutual mirror image in valve face in the 5th valve face;
With reference to figure 40 and Figure 41, S54, on the basis of the median plane of waist, angle that angle angle is 29.4 degree is by booth portion
Grind the basic valve face in the 7th valve face of second layer bottom valve, the basic valve face in the 8th valve face;The basic valve face in the 7th valve face
It is adjacent with the basic valve face in the 5th valve face, the basic valve face in the 8th valve face and the basic valve face in the 7th valve face mirror image each other;
With reference to figure 42 and Figure 43, S55, on the basis of the median plane of waist, angle that angle angle is 29.5 degree is by booth portion
Grind the basic valve face in the 9th valve face of second layer bottom valve, the basic valve face in the tenth valve face;The basic valve face in the 9th valve face
It is adjacent with the basic valve face in the 7th valve face, the basic valve face in the tenth valve face and the basic valve face in the 9th valve face each other mirror image and
It is adjacent;
With reference to figure 44 and Figure 45, S56, on the basis of the median plane of waist, angle that angle angle is 29.8 degree is by booth portion
Grind the basic valve face in the 11st valve face of second layer bottom valve, the basic valve face in the 12nd valve face;The base in the 11st valve face
Plinth valve face is adjacent with the basic valve face in the 3rd valve face, the basic valve face in the 12nd valve face and the basic valve face in the 11st valve face
Mirror image each other;
With reference to figure 46 and Figure 47, S57, on the basis of the median plane of waist, angle that angle angle is 29.4 degree is by booth portion
Grind the basic valve face in the 13rd valve face of second layer bottom valve, the basic valve face in the tenth pintongs face;The base in the 13rd valve face
Plinth valve face is adjacent with the basic valve face in the 11st valve face, basic valve face and the 13rd valve face in the tenth pintongs face
Basic valve face mirror image each other;
With reference to figure 48 and Figure 49, S58, on the basis of the median plane of waist, angle that angle angle is 29.3 degree is by booth portion
Grind the basic valve face in the 15th valve face of second layer bottom valve, the basic valve face in the 16th valve face;The base in the 15th valve face
Plinth valve face is adjacent with the basic valve face in the 13rd valve face, the basic valve face in the 16th valve face and the basic valve in the 15th valve face
Face mirror image and adjacent each other.
Preferably, the height ratio in the height of second layer bottom valve and the booth portion is 30~32%;Or/and third layer bottom valve
The height ratio in height and the booth portion be 50~51%;Or/and the height of first layer bottom valve and the height ratio in the booth portion are
20~33%.
S7, in the kite face of bizet, on the basis of the median plane of waist, angle angle grinds for the angle of 39.0-40.0 degree
Go out first point of facet, on the basis of the median plane of waist, angle angle grind second point of facet for the angle of 34.0-36.0 degree,
The intersection (separator bar) of first point of facet and second point of facet is the diagonal in kite face, and first point of facet is relative to second point
Waist of the facet close to diamond.So as to form 16 new facets in bizet.Processing method can also not have step S7, at this time, wind
Zither face does not form two facets, referring particularly to Figure 53.
Diamond described in the utility model with heart side, bizet 1 include 41 Ge Office faces (if the kite face of bizet is not divided
For two and half facets, i.e. only 33 Ge Office faces, referring particularly to Figure 53), waist 2 separates bizet 1 and booth portion 3, and booth portion 3 includes first
16 valve faces, the 16 valve faces of second layer bottom valve of layer bottom valve 31,16 valve faces of third layer bottom valve 33, the 4th layer of bottom valve 34
16 valve faces, totally 105, whole valve faces.The diamond that the utility model processes, it is overlapping to observe visible two centers from booth portion
Three-core side, be embodied in second layer bottom valve, third layer bottom lobed into thimble.
Above-mentioned processing method overcomes current added diamond man-hour, overcomes the processing side being difficult to realize more than diplocardia side
Formula, has been successfully made out structure diamond of multiple hearts at (during at least three hearts), further increases the reflective functions of diamond, with
And flicker degree and fire coloured silk that diamond can produce are improved, and make diamond in addition to more aesthetically pleasing as common ornaments, being capable of conduct
A kind of anaclasis part is applied in more more occasions, and more useful implementation tool and research technique are provided for light experiment.
The embodiment of the processing method in diamond booth portion described in the utility model step S2 to step S6 for example above.
Embodiment 2
The step of method for processing diamond described in embodiment 2, is other same as Example 1 in addition to following steps:
The total height in the booth 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 59.5% of waist circular diameter, the thickness of the waist accounts for the 3.2% of waist circular diameter.
The utility model is not limited to the above embodiment, if various changes or modifications to the utility model do not take off
From the spirit and scope of the utility model, if these modification and variations belong to the claims and equivalents of the utility model
Within the scope of, then the utility model is also intended to comprising these changes and changes.
Claims (10)
1. the booth portion structure of a kind of diamond, it is characterised in that the booth portion includes at least four layers of bottom valve, including from bottom to top successively
Adjacent first layer bottom valve, second layer bottom valve, third layer bottom valve, the 4th layer of bottom valve, the bottom valve surround the pinnacle in the booth portion
Position;First layer bottom valve is heart-shaped for one, and second layer bottom valve, third layer bottom valve form thimble respectively.
2. the booth portion structure of diamond according to claim 1, it is characterised in that there are four layers of bottom valve in the booth portion.
3. the booth portion structure of diamond according to claim 1 or 2, it is characterised in that
The valve face of the 4th layer of bottom valve and the angle angle of the median plane of the waist of the diamond are 41.50-42.0 degree, or/
It is 37.0-38.0 degree with the valve face of third layer bottom valve and the angle angle of the median plane of the waist of the diamond;Or/and institute
The angle angle for stating the median plane of the valve face of second layer bottom valve and the waist of the diamond is 32.0-33.0 degree, or/and described
The valve face of two layers of bottom valve and the angle angle of the median plane of the waist of the diamond are 29.0-30.0 degree.
4. the booth portion structure of diamond according to claim 1, it is characterised in that
Second layer bottom valve, third layer bottom valve and first layer bottom valve all have with lower 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 angle angle in each group valve face is different;Two valve faces in every group of valve face are mutual
For mirror image.
5. the booth portion structure of the diamond according to claim 1 or 4, it is characterised in that
The height ratio in the height of second layer bottom valve and the booth portion is 30~32%.
6. the booth portion structure of the diamond according to claim 1 or 4, it is characterised in that the height of third layer bottom valve with
The height ratio in the booth portion is 50~51%.
7. the booth portion structure of the diamond according to claim 1 or 4, it is characterised in that the height of first layer bottom valve with
The height ratio in the booth portion is 20~33%.
8. the booth portion structure of diamond according to claim 6, it is characterised in that the handing-over line of adjacent bottom valve is cardioid;
The height ratio in the height of first layer bottom valve and the booth portion is 20~33%.
A kind of 9. diamond with heart side, it is characterised in that including diamond main body, the diamond main body include bizet, waist and
Booth portion;The surface of the bizet is round bur bizet basic side;The structure in the booth portion is the claim 1 to claim 8
The booth portion structure of diamond described in any claim.
10. the diamond according to claim 9 with heart side, it is characterised in that the kite face of the bizet passes through separation
Line separates the two points of facets to be formed, including first point of facet and second point of facet, and first point of facet is relative to second point of facet
Close to the waist of diamond;The angle angle of the median plane of first point of facet and waist is 39.0-40.0 degree, second point of facet and waist
The angle angle of the median plane in portion is 34.0-36.0 degree;Separator bar is the diagonal in kite face.
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CN107997315A (en) * | 2017-12-29 | 2018-05-08 | 李奇 | The processing method and its diamond in the diamond booth portion with heart-shaped configuration effect |
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CN107997315A (en) * | 2017-12-29 | 2018-05-08 | 李奇 | The processing method and its diamond in the diamond booth portion with heart-shaped configuration effect |
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