SU1553889A1 - Spectral method and apparatus for determining composition of ores - Google Patents

Abstract

The invention relates to a technique for analytical control of substances and spectral analysis. The aim of the invention is to improve the correctness of the determination of the useful component in a piece of ore. The method includes illumination of ore pieces with a continuous spectrum of radiation, discrete measurement of the intensity of reflected radiation at two wavelengths, subsequent normalization of the received signals with a sampling frequency and accumulation of them during the inspection of the piece. A signal proportional to the size of the piece is formed, the ratio of the accumulated signal to the signal proportional to the size of the piece is found. The content of the useful component in a piece of ore is estimated by the magnitude of the excess obtained by the ratio of a given threshold value. The device contains a halogen source of continuous spectrum 1, a shutter 2, an optical system 3, two dispersing devices 4 and 5, two photodetectors 6, two current-voltage converters 7 and 8, a quantizing device 9 controlled by a generator 10, a normalization device 11, an integrator 12, a signal shaping device 13 proportional to the size of the piece, a ratio meter 14, and a recorder 15. The photo-impedance outputs are connected to the inputs of a quantizing device through the current-voltage converters, the outputs of which are connected to the inputs of devices rationing. The output of the normalization device is connected to the input of the integrator, the output of which is connected to the first input of the ratio meter, and the output of the signal conditioning device proportional to the size of the piece is connected to the second input of the ratio meter. The output of the relationship meter is connected to the recorder. In this case, the obturator is located in front of the optical system. The analyzed piece of ore is illuminated with a source of continuous spectrum, using a obturator, line-by-line scanning of the reflected radiation is made, which is recorded by photoreceivers at two wavelengths. The signals thus obtained are discretely normalized and accumulated during the inspection of the piece. 2 sec. f-ly, 1 ill.

Description

world, integrator 12, signal shaping device 13, proportional to the size of the piece, 4 relationship meter and recorder 15. The photodetector outputs through current-voltage converters are connected to the inputs of a quantizer, whose outputs are connected to the inputs of the normalization device, The output of the normalization device is connected to the input an integrator, the output of which is connected to the first input of the relationship meter, and the output of the signal conditioning device proportional to the size of the piece, is connected to the second input of the meter from of wearing. The output of the relationship meter is connected to the recorder. In this case, the obturator is located in front of the optical system. The analyzed piece of ore is illuminated with a source of continuous spectrum, using a obturator, line-by-line scanning of the reflected radiation is made, which is recorded by photo-receiving devices at two wavelengths. The SIGNELS obtained in this way are discretely normalized and accumulated during the inspection of the piece. 2 sp, f-s, 1 ill.

The invention relates to the technique of analytical control of substances and spectral analysis and can be used in the mining industry for the rapid determination of the composition of mineral raw materials according to optical spectral characteristics.

The aim of the invention is to improve the accuracy of the determination of the content of the useful component in a piece

ORE.

The drawing shows a diagram of the device that implements the invention.

The spectral method for determining the composition of the ores is carried out as follows.

The analyzed piece of ore is illuminated with radiation with a continuous spectrum, then the intensity of the reflected radiation is measured at two wavelengths. The received signals are normalized with the sampling rate and accumulated during the inspection of the piece. They form a signal proportional to the size of the piece and find the ratio of the accumulated signal to the signal proportional to the size of the piece. The content of the useful component in the analyzed piece of ore is estimated by the magnitude of the excess by the recorded ratio of the threshold value. The threshold value is set specifically for each type of ore.

A device that implements a spectral method for determining the composition of ores contains an illuminator 1 (halogen incandescent lamp), a shutter 2, an optical system 3, two dispersing devices 4 and 5 having transmission areas in different spectral regions of optical radiation, photodetectors 6, two converters 7 and

8tok - voltage, 9 quantization device controlled by a generator

5 0, a normalization device 11, an integrator 12, a signal forming device 13 proportional to the size of the piece to be analyzed, a ratio meter 14 and a recorder 15.

0 Consider the operation of the device on the example of determining the composition of sylvite ores by the intensity of the reflected radiation.

Analyzed piece of ore light

5 by a continuous spectrum source, then using the obturator 2, line-by-line scanning of the radiation reflected from the piece is performed. The luminous flux thus obtained is divided into two directions by the optical system 3 and, having passed dispersing devices 4 and 5, hits the photodetectors 6. The measurement of the intensity of the reflected radiation is carried out in the visible region

5, the dispersing devices 4 and 5 are chosen so that the bandwidth of the dispersing device 4 corresponds to the maximum intensity of the reflected radiation, and the bandwidth of the dispersing device 5 to the minimum intensity of the reflected radiation for the piece of ore being analyzed. From the output of the photodetectors 6 signals pass

5 transducers 7 and 8 current - voltage; two channels are fed to the inputs of a quantization device 9 controlled by a generator 10, a device

The 9 quantization performs a periodic (with a frequency of 100 kHz) interruption of the signal obtained by progressive scanning of the reflected radiation. Quantization device 9 is necessary for spot inspection of small surfaces of the analyzed piece, while device 11 at each point of the inspection normalizes signals recorded in two spectral ranges. Next, the normalized signals are accumulated by the integrator 12 during the inspection of the analyzed piece. The accumulated signal is fed to the first input of the meter 14 ratios, to the second input of which, through the device 13, which forms a signal proportional to the size of the piece, receives a signal from the converter 8 current - voltage. From the output of the meter 14 ratios, a signal proportional to the content of the useful component in the analyzed piece of ore is fed to the recorder 15.

The proposed method for determining the composition of ores and the device for its implementation in comparison with the existing ones provide an increase in the accuracy of determining the composition of ores by taking into account the configuration and spatial orientation of the analyzed piece, as well as changing the intensity of the incident radiation. This is achieved by normalization at each point of the inspection of signals recorded in two spectral ranges, followed by their accumulation during the inspection of the piece and taking the ratio of the accumulated signal to the signal proportional to the size of the piece. Rationing can be carried out by taking both the ratio of the signals directly recorded in the two spectral ranges, and the ratio of the difference of these signals to the value of their sum.

Testing of the proposed method was carried out on sylvinite ores with registration of the reflection coefficients of the analyzed samples. It was experimentally obtained that when the spatial orientation of the analyzed sample changed, when the intensity of the reflected radiation changed 200 times, the resulting signal changed only by 10%. radiation 2 times the resulting signal is almost unchanged.

Claims (1)

1. A spectral method for determining the composition of ores, consisting in illuminating ore chunks, measured on two wavelengths of the intensity of the reflected radiation and the determination from the measurement results of the content of the useful component in the piece, which is due to the fact that increasing the accuracy of the ore composition, the ore chunks are illuminated with a continuous spectrum of radiation, measured discretely by the intensity of the reflected radiation at two wavelengths, corresponding to the maximum and minimum intensities of the reflected radiation, normalize them with the sampling frequency, accumulate them during the inspection of the piece, form a signal, proportional to the size of the piece, and find the ratio of the accumulated signal to the signal proportional to the size of the piece, while the content of the useful component in the analyzed piece of ore is determined by the value of the obtained ratio of the specified threshold value, 2a A device for spectral determination of the composition of ores, containing an illuminator, an optical system for dividing the beam into two channels, each of which has a dispersing device, a photodetector, a current-voltage converter, connected in series, and the registration system, characterized in that, in order to improve the accuracy of determining the composition of the ores, it additionally contains normalization function, integrator, signal shaping device proportional to the size of a piece, a quantizing device controlled by a generator, a signal ratio meter and a shutter, while the outputs of the current-voltage transducers are connected to the inputs of the quantizing device, the outputs of the quantizing device are connected to the inputs of the normal- the output of which is connected to the integrator input, the integrator output is connected to the first input of the signal ratio meter, the second input of which is connected to the output of the device 715538898 signal shaping, proportional output signal meter According to the size of the piece, the input is connected to the recorder, and the obturator is connected to the output of one of the devices located in front of the optical current transducer - voltage, subject.