SU1097387A1 - Method of sorting diamonds and device for effecting same - Google Patents

Abstract

1. A method of sorting diamonds by: irradiating them with a stream of monochromatic radiation with a subsequent determination of the absorption coefficient of radiation, characterized in that, in order to increase the efficiency of sorting, a stream of depolarized monochromatic radiation is used as the radiation flux, and the indicator IfJ / absorption of the radiation flux is determined according to the relation --H- -. 5 R6 where is the radiation flux absorption index i is the photometric thickness of the diamond; 5 R is the cross section of the radiation flux; the coefficient takes into account the reflection loss; 6 is the area of the diamond projection; reference radiation flux; f is the working radiation flux. g 2. An apparatus for carrying out the method according to claim 1, comprising a source of monochromatic radiation, on the optical axis of which a diaphragm and a photometric camera are installed, int. A photocell is placed at the cell, electrically connected through the control unit to the actuating mechanism, most notably with a polarizer 00 and a birefixing element mounted on the optical axis between the source of monochromatic radiation and the diaphragm after the assembly. .

Description

The invention relates to the sorting of diamonds, and more specifically to a method of sorting diamonds by irradiating them with a stream of monochromatic radiation with the subsequent determination of the radiation index. There is a known method of sorting diamonds by irradiating them with a stream of monochromatic radiation with subsequent determination of the radiation index and a device for carrying out this method, containing a source of monochromatic radiation, on the optical axis of which a diaphragm and photometric chamber is installed, inside which; a photocell is placed electrically connected through the control unit to the actuator Cl 1. The invention of the invention is an increase in the sorting efficiency. The goal is achieved in that according to the method of sorting diamonds by irradiating them with a stream of monochromatic radiation, followed by determining the radiation absorption index, the flow of depolarized monochromatic radiation is used as the radiation flux, and the absorption coefficient of the radiation flux is determined by the following ratio R6 Ф where is the absorption coefficient radiation flux; photometric thickness, diamond section, radiation flux; coefficient, which is the loss, per reflection of the projected area of the diamond) Fo is the reference radiation flux; F is the working radiation flux; . A device for carrying out a spfso ba, containing a source of monochromatic radiation, on the optical axis of which a diaphragm and photometric camera is installed, inside which a photocell electrically connected through a control unit with an actuator is placed on the optical axis between the monochromatic radiation source and the diaphragm in series installed polarizer and birefringent cells. Fig. 1 shows a structural diagram of the device in Fig. 2, a diagram of the R coefficient taking into account the reflection loss from the angle of incidence d of the light beam on the face of the diamond for diamond grains of cubic shape. The device for carrying out the proposed Atosob consists of a source of monochromatic radiation, on the optical axis of which a diaphragm 2 and a photometric camera 3 are installed, inside which a photocell 4 electrically connected via control unit 5 to the actuator 6 is placed, on the optical axis between source 1 monochromatic radiation and the diaphragm 2 are successively installed a polarizer 7 and a birefringent element 8. Above the photometric camera 3 there is a diamond feed mechanism 9, 10 ementom 4 installed shield 11. To reset the sorted products there are receiving hoppers 12. The process is carried out as follows. After switching on the monochromatic radiation source 1 (Fig. 1), whose luminous flux is calibrated over the cross section with diaphragm 2, the magnitude of the reference luminous flux is established by rotating the polarizer 7 around the axis. The control of the magnitude of the reference signal detected by the photocell 4 is carried out on an instrument, for example a microammeter (not shown). At the same time, coordinated with the magnitude of the reversal of the polarizer 7, the reversal of the depolarizer 8 ensures depolarization. From the feed mechanism 9, the diamond 10 enters the photometric chamber 3 and, with a free fall, crosses at its center the luminous flux of the source 1 of monochromatic radiation. Depending on the light absorption index, the value of which is determined by the degree of transparency of the diamond 10, the photocell 7, protected from direct illumination by the protective screen 11, generates a photoelectric signal applied to the input of the control unit 5, which, after being processed, provides such a position of the actuator 6, in which the diamond 10 is sent to the corresponding receiving bin 12, the proposed method makes it possible to increase the sorting efficiency.

Claims (2)

METHOD FOR SORTING DIAMONDS AND DEVICE FOR ITS IMPLEMENTATION. (57) 1. A method for sorting diamonds by irradiating with a monochromatic radiation flux followed by determining a radiation absorption index, characterized in that, in order to increase the sorting efficiency, a depolarized monochromatic radiation flux is used as the radiation flux, and the radiation flux absorption coefficient is determined as follows the relation where £ is the absorption coefficient of the radiation flux; (- photometric thickness of diamond -, 5 - cross section of the radiation flux; * R - coefficient taking into account the reflection loss -, 6 - diamond projection area; ' Ф _о - reference radiation flux; F is the working flux of radiation. 2. Device for implementing the § method according to π.1, containing a source L · of monochromatic radiation, on the optical axis of which there are a dia-fragment and a photometric camera, inside | A photovoltaic cell is placed electrically connected through the control unit to the actuator, which is characterized by the fact that a polarizer • and a birefringent element are installed in series on the optical axis between the monochromatic radiation source and the diaphragm.