TH30523B - Marking on uncut gems or industrial diamonds - Google Patents

Abstract

DC60 To make a small mark on the smooth cut surface (7a) of diamond (7), the holder or DOP (11) and diamond (7) were rotated, a photosensitive solution was applied to the surface. The smooth cut (7a), the impregnated insulator is annealed by heating the base of the dop (11) and the dop (11) is transferred to the smooth cutting surface (30) of the tool for the Shining insulating plating The plating insulator is irradiated by using a radioactive form for irradiation with which the image is was reduced in size to the mask (35), which operates through the objective lens (38). The radioactive source (31) and can have a wavelength of 350 to 450 nm due to the alignment, orientation and focus of the image. The radioactive source (31) was arranged to emit light in a wavelength range of 500 to 550 nm, which had no effect on the plating insulation. which produces an image for adjustment on a flat cut surface (7a). The adjustment image is viewed in the observation plane (44) through the objective lens (38) and the beam splitter (36). was prominent and the projected area of the smooth-cut surface (7a) was carved out by using plasma (Fig. 2) to make a small mark on the smooth-cut surface (7a) of the diamond (7). The clamp or dop (11) to the diamond (7) was rotated, the photosensitive solution was applied to the smooth cutting surface (7a), the impregnated insulator was annealed by impregnation. The heat at the base of the dop (11) and dop (11) is transferred to the smooth cutting surface (30) of the tool for Shining insulating plating The plating insulator is irradiated by using a radioactive form for irradiation with which the image is was reduced in size to the mask (35), which operates through the objective lens (38). The source is radioactive 31 and can have a wavelength of 350 to 450 nm due to its alignment, orientation and focus. radioactive source (31) It is arranged to emit light in the wavelength range of 500 to 550 nm, which does not affect the insulator. which produces an image for adjustment on a flat cut surface (7a). The adjustment image is viewed in the observation plane (44) through the objective lens. (38)and beam splitter (36) After projection, the plating insulator is made prominent and the projected area of the cutting face is smooth. (7a) was removed using plasma (Fig. 2).

Claims (6)

1. A method of marking on an uncut gemstone or an industrial diamond that consists of radioactive irradiation for radiating light onto an unprocessed gem. A cut or diamond to make an image that is created by shining light on it And the method which also consists of Positioning, direction adjustment And / or focusing, the condition arising from the exposure by Projected onto an uncut gem or diamond With radioactive for different settings From radioactive for radiation as well To make images for setting on the gem that is not yet The cut or diamond, the radioactive setting does not affect the uncut gemstone or the diamond in the way in which the check mark or will be made. The image for setting on the jewel still The uncut or diamond is perceived to the outside of the light path followed by the calibration radioactivity before it reaches an uncut gem or diamond and its alignment, orientation, and /. Or the focus of the image for the setting on the jewel still Uncut or diamonds will be fine. This allows for alignment, and / or direction, and / or the focus of the projected image. 2. Method according to claim 1, where the image for calibration is projected through the object lens or lens system. And was perceived through the lens of objects Or lens system 3. Method according to claim 1 or 2, where the radioactive setting and As for the radiation, there are different waves. 4. Methods according to both claim No. 2 and claim No. 3, where the lens, object or lens system is modified for radioactivity, for calibration, and for radioactive for light exposure. 5. Method according to claim 1 or 2, where the radioactive setting and For the projection of light having the same wavelength or band of wavelength But the radioactive for The setting has a lower radioactive intensity for the radiation. 6. Means of one of the previous claims. Where the mark was made by Smooth gravure printing techniques (lithography) and photoresist. (photoresist) has been applied to jewelry. Uncut or industrial diamonds, impregnated insulation (resist), insensitive to radioactive For the adjustment. 7. Method of any of the previous claims. Where the radioactive Set in the range that can be seen by the naked eye. 8. Procedure according to claim 7, where the image for the calibration is visible to the eye 9. One of the methods according to claim 1 to 7, where the image for the calibration is Sensory perception by electronic image detector 1 0. Any of the preceding claims method. Where the image for adjustment is made It is projected by radiation for setting through the mask. And the image produced by the exposure was made This is done by radiation exposure for masking 1 1. Method according to claim 10, where at least the mask for adjustment is The same parts as a mask for the radiation. Both radioactive for setting with radioactive For the projection of light which is projected through the mask And an optical system modified for radioactive For the radioactive adjustment for exposure 1 2. One of the methods in Clause 1 to 9. Where the image for adjustment and For the projection of light has been done. By filing radioactive for calibration and radioactive for Light is projected through a mask consisting of at least one setting area. Which is opaque to Radioactive for radiation But transparent to radioactive for setting And at the very least One radiated area where light is projected to radioactive for radiation. Setting area Which defines the shape for positioning, and / or orienting and / or focusing the image at It is caused by shining light on an uncut gemstone or diamond, a method in which the projection Radioactive for adjusting through mask To make images for setting on the unprocessed jewel Cut or diamond, alignment, direction adjustment And / or image focusing for Adjustment of the said setting on an uncut gem or diamond. And the radiation for the Beams of light through a mask to produce images of light emitting onto uncut gems or diamonds, and Resulting Marking on an uncut gemstone or diamond 1 3. Method according to Clause 12, where the projection area identifies a figure corresponding to the item. Marks to be made 1 4. Method of claim 12, where the projected area is a transparent area next. The radioactive for radiation, the radioactive for the radiation will be projected. 1 5. Method of claim 1 to 13, any one. Where the image produced by the beam is projected This is done by radiating light through a mask with proper reduction in size 1 6. Method of claim clause No. 15 where the projected image does not exceed approximately one tenth the longitudinal dimension of the mask 1 7. Any method of claim 1 to 9 or 13 to 16. Where the image is caused by Light exposure is performed by radiation for projecting light through a mask, a mask where Contains areas made up by at least indivdual pixels, where the mask effect can be changed as desired. Therefore, uncut gems or diamonds that Continuously, there can be different projected images projected onto them. 1 8. Method of one of the preceding claims. Where the radioactive Adjustment and for the projection of light is projected through a diffuser. And the image for adjustment was Look through the beam splitter 1 9. Methods of marking on uncut gems as requested in the Clause Hold any of the rights 1 to 18 where radiation radiation is emitted through the mask. On uncut gems To make an image created by projecting light on it Mask on which Consisting of an area being made Each pixel (indivdual pixels) at least, where the mask effect can be changed at will. And project a different image that is generated from the projection of light. Go on a continuous uncut gemstone by changing the effect of the mask's face 2 0. Method to Clause 19 where the mask consists of a liwquid crystal light valves. 2 0. Method according to claim 19, where the mask consists of rows of small glass 2 2. Tools for marking on uncut gemstones or diamonds. It uses color activatediation for light transmission, consisting of a complex system for projecting images onto uncut gemstones or diamonds. A path for radioactive projection for light irradiation to reproduce images produced by radiating light. On an uncut gem or diamond The radioactive projection method for the adjustment to make the image for the adjustment. On an uncut gem or diamond Radioactive settings do not affect the On uncut gems or diamonds In the way that a check mark or will be made; A path for visual perception for adjustment. On an uncut gem or diamond whose path is outside the path of light which is followed by radioactive for Adjust before it reaches the uncut gem or diamond and its path for alignment adjustment, and / or alignment and / or alignment Focus of the image for the setting on an uncut gem or diamond. Cause adjustment Position and / or adjust the direction and / or focus of the image caused by the light beam projected onto the beam. An uncut or diamond mani 2. 3. The instrument according to both claim 22, where the image for adjustment is projected through the lens. Object or lens system And is perceived in contact through the lens, object or lens system 2. 4. Apparatus according to either Clause 22 or 23, where the radioactivity for calibration and 2 5. The apparatus follows both claim 23 and claim 24, where the object lens or the objective lens system is corrected, both for the radiation for the irradiation. And for radioactive For setup 2 6. Apparatus according to claim 22 to 23, where the radioactivity for the setting and for the emission has the same wavelength or band of wavelength. But with the colors for the The setting has a lower intensity than that of the chromatic grip for the exposure 2 7. One of the instruments in Clause 22 to 26. Where it activates for The plinth is located within the visible range of the naked eye 2. 8. Instrument according to claim 27, where the image for calibration can be viewed by eye for visual adjustment of position management. And / or orienting and / or focusing for setting on uncut gemstones or diamonds. 2. 9. Tools in accordance with Clause 28 and also contain magnifying tools for Look at the image for adjusting the eye. 3 0. Any tool in accordance with Clause 22 to 27, which consists of With an electronec imaging dector (an electronec imaging dector) for the marker detection. Set up Thus providing a signal for adjusting, adjusting, positioning and / or focusing. For setting on uncut or diamond 3 1. Equipment according to Clause 22 to 29, one of which consists of the For securing masks, an optical system intended for the projection of the mask onto unidentified jewels. Uncut or diamond 3 2. Instrument according to claim 31, where the optical system projects the image of the mark. With proper shrinking 3 3. Instrument according to claim 302, where the image produced by the light beam does not exceed approximately one tenth the length of the mask 3. 4. Any equipment according to Clause 31 to 33. Where the mask consists of The area that is made up by at least individual pixels. With the effect of the mask Can be changed as needed Therefore, uncut gemstones or continuous diamonds There can be an image resulting from a different beam of light projected onto it. 5. One of the instruments according to Clause 31 to 34. Where the mask consists of Liquid seal light valve 3 6.Any of the instruments according to Clause 31 to 34 Where the mask consists of A row of small mirrors