RU99123844A - METHOD AND EQUIPMENT FOR STANDARDIZED CLASSIFICATION OF PRECIOUS STONES - Google Patents

Claims (29)

1. Apparatus for classifying and identifying a gemstone, having a housing located in the housing platform, on which the gemstone is installed, the first device located inside the housing, which is designed to illuminate the gemstone mounted on the platform, a device for moving the platform in the housing located inside the housing an electronic video camera in the field of visibility of which is a gemstone and which is designed to form electronic signals characterizing the the images inimitable that correspond to the physical characteristics of the gem, an electronic data processor that is functionally connected to the platform-moving device and electronic video camera and which is programmed to execute a set of commands for controlling the platform-moving device and electronic video camera and to receive and store image signals in memory, formed by an electronic video camera.  2. The equipment according to claim 1, in which the platform is mounted on an axis, and the moving device has a device for moving the camera along this axis and a device for rotating the camera around this axis.  3. The apparatus of claim 1, wherein the first gemstone illuminating device has a first light source located below the platform and a second light source located above the platform.  4. The apparatus according to claim 3, which also has a first light guide device located between the first light source and the platform, and a second light guide device located between the second light source and the platform.  5. The equipment according to claim 1, in which the platform has a transparent area on which the gemstone is installed, which ensures the incidence of light emitted by the stone lighting device on the gemstone located on the platform.  6. The apparatus of claim 1, comprising a display operatively coupled to an electronic data processing processor and designed to reproduce gemstone images generated from image signals from an electronic video camera.  7. The equipment according to claim 1, having a device for moving the camcorder along an axis located perpendicular to the axis of the platform.  8. The equipment according to claim 1, having a light filter and a device for installing a light filter, which is located between the video camera and the platform.  9. The equipment according to claim 8, which also has a device for moving the filter, by which the filter moves from the idle position to the working position and back from the working position to the non-working position.  10. The equipment according to claim 1, having a fan driven by the engine, which creates air circulation inside the housing.  11. The equipment according to claim 1, in which the housing has an opening and a filter located in this opening to remove dust from the air passing through this opening.  12. The equipment according to claim 1, also having a source of ultraviolet radiation located inside the case and designed to illuminate the gem with ultraviolet light.  13. The equipment according to claim 1, in which the electronic data processing processor creates a data file containing information about the physical characteristics of the gemstone, obtained on the basis of image signals from the electronic video camera, and has a data storage device in which the data file is stored with the possibility of it subsequent sampling.  14. The apparatus of claim 13, wherein the electronic data processor has a device for retrieving a data file in a data storage device and transmitting this data file to a second data processor, which provides a report containing estimated information on a gemstone checked on this apparatus .  15. The equipment according to claim 1, in which there is also a second lighting device located inside the housing and designed to illuminate the back side of the gemstone mounted in relation to the electronic video camera.  16. The equipment according to clause 15, having a third lighting device located in the housing and designed to illuminate the front of the gemstone mounted in relation to the electronic video camera.  17. A system for creating, maintaining and receiving information about the characteristics of precious stones, having an electronic video camera in the field of visibility of which is a precious stone and which is designed to generate image signals corresponding to the physical characteristics of the precious stone, an electronic data processor that is functionally connected to electronic a video camera for receiving image signals generated by it and which is programmed to execute a set of commands for controlling electronic video with a camera and processing these signals, forming on their basis a data file containing information identifying the physical characteristics of the gem, central data processing equipment, including a central data processing processor and a central data storage device, and communication tools for creating a data exchange channel between the electronic processor data processing and the central data processing processor, according to which between these data processing processor and the central processing processor is given In particular, a data file containing information identifying the physical characteristics of the gemstone may be transmitted.  18. The system according to 17, in which the central data processing apparatus has a database with information identifying many gems, and the central data processor is programmed to select from this database information identifying a gem according to its physical characteristics.  19. The system of claim 18, wherein the central data processing processor is programmed to compare the gemstone identifying information from the database with information received from the electronic data processing processor, which makes it possible to accurately identify the gemstone whose images are generated by the electronic video camera.  20. A method for evaluating a gemstone by its color profile in ultraviolet, wherein the gemstone is placed in a limited space where essentially no light penetrates, the gemstone is illuminated with essentially ultraviolet light and diffused light, and a CCD camera is used to form a characterization illuminated by such light a gemstone image that is stored in the storage device in the form of a set of data characterizing the image elements of the gemstone, turn off the ultraviolet light source, p By borrowing from illuminating the gem with only one scattered light, using the CCD camera, an image characterizing the gem illuminated by such light is formed, which is stored in the storage device in the form of a second set of image data characterizing the image of the precious stone, the first and second sets of image data characterizing the image of the gem are compared and the results of this comparison determine the level of fluorescence of the gem.  21. A method for analyzing data characterizing the light directed to the gem and the light reflected from it to classify the gem, the gem being mounted on the platform in a first position in an enclosed space in which light does not penetrate, with the formation of a translucent area on this platform, inside of which the whole gemstone is located, the sensitive element of the CCD camera with the main optical axis is positioned on the same axis with the platform located in the first position and connected A ZS-camera with a data processor that executes a set of control commands, the bottom side of the gemstone is illuminated through a translucent section of the platform with a light source located under the platform, the gemstone is lit from the side in the direction of the sensitive element of the CCD camera, the platform is rotated around its central axis by a command from the data processor and using a CCD camera form an image that characterizes the gem illuminated in this way, which is stored in the storage device e in the form of a set of characterizing data image elements.  22. A method for analyzing data characterizing the light sent to the gem and the light reflected from it to classify the gem, the gem being mounted on the platform in a first position in an enclosed space in which light does not penetrate, with the formation of a translucent area on this platform, inside of which a gemstone mounted on the platform is completely located, the sensitive element of the CCD camera with the main optical axis is positioned on the same axis as the first position a platform, while the CCD camera is functionally connected to a data processor that executes a set of control commands and stores in the memory a set of data characterizing the image elements of a gemstone obtained using the camera, the gemstone is illuminated with an ultraviolet light source, the gemstone is illuminated from below through a translucent a portion of the platform with a D55 light source and using a CCD camera form an image of a gem illuminated in this way, which is stored in remembers device as a set of data characterizing picture elements.  23. The method of claim 22, wherein the light source D55 is a ring-shaped light source.  24. The method according to item 22, in which the CCD camera is moved along the main optical axis to a position determined by a command from the data processor.  25. A method of analyzing data characterizing the light directed to the gem and the light reflected from it to classify the gem, the gem being mounted on the platform in a first position in an enclosed space into which light does not penetrate, with the formation of a translucent portion on this platform, inside of which a gemstone mounted on the platform is completely located, the sensitive element of the CCD camera with the main optical axis is positioned on the same axis as the first position a platform, wherein the CCD camera is functionally connected to a data processor that executes a set of control commands and has the ability to move along the main optical axis from the first position to the second, and the specified data processor has the ability to store a data set characterizing the received data in the storage device with the help of a camera, gemstone image elements, platforms are moved upward relative to the main optical axis, a light-reflecting element is positioned having the reflection angle, combining this light-reflecting element with the main optical axis, move the camera in the direction of the light-reflecting element along the main optical axis to the second position, the gemstone is illuminated from below through a translucent section of the platform and using the CCD camera form the image of the gemstone in reflected light which is stored in the storage device in the form of a set of data characterizing image elements.  26. The method according A.25, in which the distance between the first and second positions of the camera along the main optical axis is equivalent to the distance by which the platform is lifted up.  27. A method for analyzing data characterizing the light sent to the gem and the light reflected from it to classify the gem, the gem being mounted on the platform in a first position in an enclosed space into which light does not penetrate, with the formation of a translucent area on this platform, inside of which a gemstone mounted on the platform is completely located, the sensitive element of the CCD camera with the main optical axis is positioned on the same axis as the first position a platform, wherein the CCD camera is functionally connected to a data processor that executes a set of control commands and has the ability to move along the main optical axis from the first position to the second, and the specified data processor has the ability to store a data set characterizing the received data in the storage device with the help of a camera, gemstone image elements, the platform is moved upward relative to the main optical axis, the light-reflecting element is positioned, having the reflection angle, combining this light-reflecting element with the main optical axis, move the camera in the direction of the light-reflecting element along the main optical axis to the second position, the gemstone is illuminated from below through a translucent section of the platform, using the CCD camera form the image of the gemstone in reflected light , which is stored in the storage device in the form of a set of data characterizing the elements of this image, turn off the light source located under the platform, the gem light they clean the light source located above the platform, using a CCD camera form the image of the gem in reflected light, which is stored in the storage device as a set of data characterizing the elements of this image, turn off the light source located under the platform, the gem is illuminated with a second light source, located under the platform, and using a CCD camera form the image of the gem in reflected light, which is stored in the storage device in the form of a set of characteristics boiling elements of the image data.  28. A method for analyzing data characterizing the light directed to the gem and the light reflected from it to classify the gem, the gem being mounted on the platform in a first position in an enclosed space into which light does not penetrate, with the formation of a translucent portion on this platform, inside of which a gemstone mounted on the platform is completely located, the sensitive element of the CCD camera with the main optical axis is positioned on the same axis as the first position a platform, wherein the CCD camera is functionally connected to a data processor that executes a set of control commands and has the ability to move along the main optical axis from the first position to the second, and the specified data processor has the ability to store a data set characterizing the received data in the storage device using the camera, gemstone image elements, the platform is moved downward relative to the main optical axis, the light-reflecting element is positioned, having a defined the reflection angle, combining this light-reflecting element with the main optical axis, move the camera in the direction of the light-reflecting element along the main optical axis to the second position, the gemstone is illuminated simultaneously by two light sources located above the platform, the gemstone is illuminated from the side in the direction of the CCD sensing element -cams and using a CCD camera form an image of a gem illuminated in this way, which is stored in a storage device in the form of a set characterizing x elements of the image data.  29. The method according to p. 28, in which when installing the gem on a translucent section of the platform, the stone is centered on the translucent section of the platform using a laser beam source passing through the center of the translucent section of the platform.