KR101444766B1 - Optical Symmetric Pattern Detector of Diamond - Google Patents

Abstract

The present invention relates to an optical symmetry detector of a diamond and, more specifically, to an optical symmetry detector of a diamond, which detects a hearts and arrows (H&A) pattern caused by an internal reflection within a diamond which is symmetrically polished by a precise angle. A diamond horizontal device of a simple structure is applied to the optical symmetry detector of a diamond to maintain the level of the diamond so as to facilitate carrying, moving, and installation regardless of place, by being cheap and having a small size. Further, the diamond polished in consideration of the symmetry can be checked at a purchase place of the diamond so as to improve the reliability when a customer purchases expensive diamonds.

Description

TECHNICAL FIELD [0001] The present invention relates to a diamond optical symmetry detector,

Field of the Invention [0001] The present invention relates to a diamond optical symmetry detector, and more particularly, to a diamond optical symmetry detector that detects a heart and arrow (H & A, Hearts and Arrows) pattern through an internal reflection in a diametrically symmetrically polished diamond Detector.

In the past, gemstones were recognized for their rarity even though they were not polished due to the difficulty of grinding.

However, due to the development of grinding technology, it is possible to increase its value through grinding considering the optical reflection characteristics rather than the value of untreated gemstones.

In particular, the Heart and Arrows cutting technology developed in Japan is currently receiving the highest evaluation from appraisers.

Heart and Arrows cutting technology sets abrasive angles and polishing surface values that maximize the internal reflection of incident light and polishes diamonds symmetrically with the set values. In the case of polishing by this technique, the polished diamond is polished by a Culet Facet (see FIG. 7) at the bottom of the diamond cone, as shown in FIG. 1, 7), a heart shape appears, and an arrow shape appears when viewed vertically down the center of the table facet from the center of the culet facet.

As such diamond polishing technology has developed, a mechanism capable of observing precisely to determine whether it is polished correctly is required.

A device designed to determine the optical symmetry of these polished diamonds is "Device for judging brilliancy of precious stones such as diamonds or the like" (US Patent No. 4,647,194).

In addition, the WTOCD, Wetenschappelijk en Technisch Onderzoeks Centrum voor Diamant, devised HRD Antwerp Viewer, consisting of a diamond viewer, computer and evaluation software.

Such conventional diametrical optical symmetry detector has a problem that it has to depend on the proficiency of the appraisers for a long time (in the case of using a simple structure of a conventional portable loupe)

In addition, the conventional diamond optical symmetry detector has a problem in that it is expensive, is large in size and heavy, and is difficult to be provided in a general consumer or a field where it is sold (when it is designed for precise measurement).

Due to these problems, the buyer who purchases diamonds can only depend on the seller or can make judgments based on the contents of the report, and there is a limit in that the value of diamonds can not be confirmed while purchasing expensive diamonds.

It is an object of the present invention to provide an optical symmetry detector of diamond which is inexpensive and small in size, in which a portable diamond,

It is another object of the present invention to provide a diamond optical symmetry detector which can reliably identify polished diamonds in consideration of symmetry in the purchase place of diamonds, thereby reliably purchasing expensive diamonds.

In order to achieve the above object, there is provided an optical symmetry detector for diamond detecting an arrow pattern in a direction of a table surface of a diamond through an image pickup device and detecting a heart shape in a cullet direction of the diamond, And a diamond horizontal device for horizontally aligning the imaging direction of the imaging device with a normal line from the table surface of the diamond to the cullet of the diamond through the air pressure through an air inlet through which the diamond is passed. Is provided.

Preferably, there is further provided a vertical column perpendicular to the bottom surface of the diamond optical symmetry detector and the imaging device being fixed via a connection block, with a control block between the vertical column and the connection block, The vertical alignment between the imaging device and the bottom surface of the optical symmetry detector of the diamond is achieved.

Preferably, the vertical column is connected to the connection block and is movable up and down to thereby change a focal point of the imaging device.

Preferably, the image pickup device has a diffuse reflection illumination cap on the front face of the lens, and the diffused reflection illumination cap diffusely reflects the light emitted from the light source provided on the side of the base on which the diamond nest is formed, with the diamond placed on the diamond nest. do.

Preferably, the diamond nest is made of a material irregularly reflecting light emitted from a light source provided on a side surface of the chair.

And an engraving number determiner configured to fix the diamond so that the normal line and the imaging direction of the imaging device are perpendicular to each other so that the diamond can rotate about the normal line, And picking up a unique number stamped on the side of the diamond through a number checker.

Preferably, the engraving number checker further comprises a high-magnification magnifying lens on the upper surface of the diamond and a reflecting mirror on the lower surface of the diamond, wherein the collection mirror is made of a diffusely reflecting material that irregularly reflects the light emitted from the light source .

The details of other embodiments are included in the detailed description and drawings.

The present invention introduces a diamond horizontal device having a simple structure to align the diameters of the diamond with the optical symmetry detector of diamond, so that it is inexpensive and small in size to carry, install, and install the device in a small space.

In addition, the present invention can identify diamond polished in consideration of symmetry in the place where diamond is purchased, thereby reliably making an expensive diamond purchase.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 shows a heart and arrow pattern of a diamond.
2 is a system configuration diagram of an optical symmetry detector of diamond according to one embodiment of the present invention.
3 is a configuration diagram of an optical symmetry detector of a diamond according to an embodiment of the present invention;
4 is a configuration diagram of an optical symmetry detector of a diamond according to another embodiment of the present invention;
5 illustrates the principle of a diamond horizontal device in an optical symmetry detector of a diamond according to an embodiment of the invention.
Figure 6 illustrates the principle that the light of a light source achieves diamond internal reflection in an optical symmetry detector of a diamond according to an embodiment of the present invention.
7 is a view for explaining a surface of a diamond.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and the manner of achieving them, will be apparent from and elucidated with reference to the embodiments described hereinafter in conjunction with the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as being limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. Is provided to fully convey the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. It is to be understood that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

2 is a system configuration diagram of an optical symmetry detector of a diamond according to an embodiment of the present invention. Referring to FIG. 2, the optical symmetry detector 200 of diamond according to an exemplary embodiment of the present invention displays a heart pattern or arrow pattern for a diamond obtained in connection with the display device 210.

3 is a block diagram of an optical symmetry detector of a diamond according to an embodiment of the present invention. Referring to FIG. 3, the optical symmetry detector of a diamond according to an embodiment of the present invention detects an arrow pattern in the direction of the table surface of the diamond through the image pickup device 320, and detects the heart pattern in the direction of the cullet of the diamond.

To this end, the optical symmetry detector of a diamond according to an embodiment of the present invention should be able to place diamonds horizontally in the diamond nest 312 formed in the base 310 on which the diamond is placed.

This is because the normals of the center of the upper surface of the diamond nest 312 are aligned with the imaging direction of the image capturing device 320 so that the arrow pattern or the heart pattern of the diamond polished symmetrically can be accurately confirmed.

Preferably, the optical symmetry detector of diamond according to one embodiment of the present invention is configured to be portable, and the imaging device 320 acquires digitized image information.

The platform 310 has an air inlet 311 that can apply air pressure to the lower end of the diamond nest 312 where the diamond is placed. The diamond placed on the diamond nest 312 of the platform 310 floats up due to the pressure of the air introduced through the air inlet 311 and falls back by gravity so that the diamond And the image pickup direction of the image pickup device 320 can be horizontal.

5 is a diagram illustrating the principle of a diamond horizontal device in an optical symmetry detector of a diamond according to an embodiment of the present invention. Referring to FIG. 5, the diamond nest 312 on which the diamond is placed is a conical nest between 45 to 48 mils based on the center line of the figure.

When the nest is placed with diamonds and air is introduced from below, the incoming air is redirected 360 ° symmetrically to the lower girdle facet (see FIG. 7) and the pavillion facet (see FIG. 7) Because it has been machined, it evenly passes around the girdle (see FIG. 7) to generate lift.

The passing air passes through a star facet (see FIG. 7), and air resistance of the same magnitude occurs on each star facet. This air resistance creates lift, and the diamond is floated in the diamond nest. The rising diamond becomes horizontal with the facets of the table faceted to the upper surface of the nest, and the pressure of the air is reduced and the diamond is kept horizontal to the diamond nest.

Thus, when the diamond nest and imaging device are installed so as to be horizontal and vertical, the diamond can be leveled by elevating the diamond on the nest and applying air pressure through the air inlet whenever the diamonds to detect the optical symmetry are changed. This makes it possible to realize a simple and inexpensive diamond horizontal device, and to provide portability and installation convenience.

3, the optical symmetry detector of diamond further includes a vertical column 340 perpendicular to the bottom surface 330 and the vertical column 340 is coupled to the imaging device 320 The image capturing apparatus 320 is fixed through a connection block 321 to which the image capturing apparatus 320 is fixed. The optical symmetry detector of the diamond has an adjustment block 350 between the vertical column 340 and the connection block 321 and the adjustment block 350 is connected to the connection block 321 according to the degree to which the fixing screw 351 is tightened. So as to adjust the horizontal state of the motor. The vertical and horizontal adjustments of the imaging surface and the bottom surface 330 of the imaging device 320 fixed to the connection block 321 through the degree of tightening of the plurality of fixing screws 351 and 352 can be adjusted.

Preferably, the securing screw is composed of a horizontal adjusting screw 351 for fixing four edge edges of the block and a vertical adjusting screw 252 for fixing the center of the block.

According to another preferred embodiment of the present invention, the vertical column 340 further includes a transfer block 341 connected to the connection block 321 and movable up and down along the vertical column 340. The focal point of the image pickup device 320 connected to the transfer block 341 is changed according to the movement of the transfer block 341.

According to another preferred embodiment of the present invention, the imaging device 320 has a diffuse reflection illumination cap 322 on the front surface of the lens. The diffusely reflective illumination cap 322 diffuses the light emitted from the light source 331 provided on the bottom surface 330 with diamonds placed on the diamond nest 312.

Preferably, the diffusely reflective illumination cap 322 is made of acetal and has a milky light with a small amount of light transmission.

Figure 6 is a diagram illustrating the principle that light from a light source achieves internal diamond reflection in an optical symmetry detector of a diamond according to an embodiment of the present invention. Referring to FIG. 6, the light emitted from the light source 331 located on the bottom surface 330 is inclined at a predetermined angle to restrict the light irradiation area. The light emitted from the limited light source is irregularly reflected by the diffuse reflection illumination cap 322, and a part of the diffused reflection reaches the diamond placed on the diamond nest 312. The diffused light irradiated on the diamond weakens the intensity of the light, and three-dimensional diffuse reflection occurs again inside the diamond. Through this three-dimensional diffuse reflection, the imaging device 320 acquires a specific pattern (a heart pattern or an arrow pattern) for the diamond.

Preferably, the image pickup device 320 further includes a PWM (Pulse Width Modulation) light amount adjusting circuit for adjusting the brightness of the captured heart pattern or the arrow pattern.

Further, preferably, the light source 331 may be provided on an opposite line perpendicular to a specific line centering on the diamond. In general, in order to achieve internal reflection of a diamond, a light source should be positioned on a circular line around a diamond. However, a light source 331 positioned on two horizontal lines around the diamond by the non- It is possible to evenly achieve the internal reflection of the light.

Referring again to FIG. 3, according to a preferred embodiment of the present invention, a diamond nest 312 on which a diamond is placed is made of a material that irregularly reflects the light emitted from the light source 331. Has a principle similar to that described with reference to Fig.

Particularly, when the diamond nest 312 is made of a material having irregular reflection, there is an effect that a specific pattern of diamond obtained through the image pickup device 320 can be three-dimensionally introduced.

In addition, preferably, when a cylindrical cap is placed on the diamond nest 312 and a translucent filter of a specific color is placed on the surface of the cap, the specific pattern of the diamond obtained through the imaging device 320 becomes visually recognized Excellent image can be obtained. Also, it can be achieved by attaching a hologram reflector or a hologram sticker containing a color to the diffuse reflection illumination cap 322.

4 is a configuration diagram of an optical symmetry detector of a diamond according to another embodiment of the present invention. 4, the optical symmetry detector of diamond according to another embodiment of the present invention includes a diamond number fixing device for fixing diamonds such that the normal to the cullet from the table surface of diamond and the imaging direction of the image pickup device 320 are perpendicular to each other, (411), and an image capturing device (420) for capturing an engraved number.

The imaging apparatus further includes an imaging device attachment block 421 which is further provided under the connection block 321 for fixing the imaging device 420 for imprinted number imaging.

The stamp number identifying unit 411 shown in the figure is provided with a separate cover, but this is necessary for adding a high magnification lens when confirming using one imaging apparatus. As shown in this drawing, It does not need to be added when confirming through the device.

The engraving number verifying unit 360 allows the imaging device 320 to confirm the diamond unique number imprinted on the surface of the diamond girdle (see FIG. 7).

The engraving number determiner 360 fixes the diamond so that it can rotate around the normal line from the table surface of the diamond to the cullet.

According to a preferred embodiment of the present invention, the stamping number checker 360 further includes a high-magnification magnifying lens that covers a fixing frame for fixing the diamond, and further includes a handgrip below the fixing frame.

Through the high-magnification magnifying lens, the imaging device 320 for confirming the heart pattern or the arrow pattern can confirm the unique number of the small-size stamp. It also reduces the risk of loss or damage to the diamond when the diamond is released from the platform through the handgrip below.

The configuration provided in the present invention must be precisely vertical and horizontal in order to image-detect the optical symmetry of the diamond.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention.

310: Base 311: Air inlet
312: Diamond nest 320: Image pickup device
330: bottom surface 340: vertical column

Claims (7)

A diamond optical symmetry detector for detecting an arrow pattern in a table surface direction of a diamond through an image pickup device and detecting a heart shape in a cullet direction of the diamond,
And a diamond horizontal device which has an air inlet leading to the lower end of the diamond nest where the diamond is placed and makes the imaging direction of the imaging device parallel to the normal from the table surface of the diamond to the cullet of the diamond through the pressure of air, that
Wherein the optical symmetry detector comprises:
The method according to claim 1,
And a vertical column perpendicular to a bottom surface of the diamond optical symmetry detector and fixed to the imaging device via a connection block,
Placing the adjustment block between the vertical column and the connection block and aligning the vertical of the imaging device and the bottom of the optical symmetry detector of the diamond through the degree of tightening of the fixing screw
Wherein the optical symmetry detector comprises:
3. The method of claim 2,
And the vertical column is connected to the connection block and is vertically movable so as to change a focal point of the imaging device
Wherein the optical symmetry detector comprises:
The method according to claim 1,
The imaging device has a diffuse reflection illumination cap on the front surface of the lens,
The diffusely reflecting illumination cap may be formed by diffusing light emitted from a light source provided on a side surface of a base formed with the diamond nest with a diamond placed on the diamond nest
Wherein the optical symmetry detector comprises:
5. The method of claim 4,
The diamond nest is made of a material that is irregularly reflecting light emitted from a light source provided on a side surface of the bed
Wherein the optical symmetry detector comprises:
The method according to claim 1,
And an engraving number identifying unit configured to fix the diamond so that the normal line and the imaging direction of the imaging device are perpendicular to each other, the diamond being rotatable about the normal line,
The imaging device captures the unique number stamped on the side of the diamond through the stamp number verifier
Wherein the optical symmetry detector comprises:
The method according to claim 6,
Wherein the engraving number checker further comprises a high magnification magnifying lens on the upper surface of the diamond and a guide bar on a lower surface of the diamond,
The collection stand is made of a diffusely reflecting material that diffuses light emitted from a light source
Wherein the optical symmetry detector comprises:

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