SU1028387A1 - Apparatus for x=ray rado radiometric sorting of ores - Google Patents

Abstract

APPARATUS FOR X-ray radiometric SORTING throttle comprising a carrier body, a source of ionizing radiation, a target and a system for detecting secondary radiation, characterized in that, in order to increase the quality of the ore sorting dutem radiation flow accounting, scattered from the surface of the carrier body, the target is installed on the conveying organ. (L

Description

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The invention relates to the enrichment of minerals and can be used in the sorting of ore in the stream by the X-ray radiometric method.

A device for continuous X-ray radiometric testing, performed in a form of a performance sensor, allows measurement of the spectral ratios of the flux of the characteristic radiation of the detected element to the flux of the scattered radiation of the source for portions of the ore, constant by weight C13.

However, this device does not provide the necessary accuracy of testing, since the measurements made with it do not take into account the effect of the radiation flux scattered from the surface of the transporting body on the results of determining the content of the useful component.

The closest in technical, essence and achievable result to the invention is a device for X-ray radiometric ore sorting, including a transporting body, an ionizing radiation source, a detection system and a target installed in the irradiation zone and made of a material whose excitation potential is not higher than the primary energy radiation source and is not equal to the excitation potential of the designated element in the sort ore 2.

However, this device also does not allow to take into account the flux of scattered radiation — from the surface of the transporting organ, free from pieces of the sorted material,; The aim of the invention is to improve the quality of ore sorting by taking into account the flux of radiation scattered from the surface of the transporting organ.

The goal is achieved by the fact that in the device for X-ray radiometric ore sorting, including a transporting organ, a source of ionizing radiation, a system for detecting secondary radiation and a target set in a radiation zone and made of a material whose excitation potential is not higher than the energy of the primary radiation source and is not equal to the excitation potential of the element being determined in the ore, the target is mounted on the transporting organ.

The drawing shows a diagram of the proposed device.

The sorting device includes a vibrating feeder 1, a transporting body 2 made in the form of an inclined tray, an ionizing radiation source 3, a secondary radiation detector 4, analyzing equipment 5, an actuator b and a receiving hopper 7. A part of the tray B located in the irradiation zone (on Shaded in the drawing, it is a target and made of a material whose excitation potential is higher than the primary radiation energy and not equal to the excitation potential of the element being detected. The position 9 denotes pieces of the ore sorted s.

The device works as follows.

Pieces of sorted, for example, ore-containing ore come from vib1X) Feeder 1 to the inclined tray 2. Moving along the tray, the pieces fall into the irradiation zone 8, where they are exposed to radiation from the source 3 of the radioactive isotope Cadmium-109. The tray surface in the irradiation zone is from titanium, the excitation potential of which (L4.5 keV) is lower than the radiation energy of the source (22.2 keV and not equal to the excitation potential of the L-series of lead (12.6 keV).

At this point, the secondary radiation detector 4 begins to record the flux of characteristic radiation of lead. Simultaneously, the flux of scattered radiation from source 3 is recorded, which is the sum of the radiation flux scattered from the surface of the ore pieces, which characterizes the composition of the host rocks / and from the tray surface free of ore pieces . The magnitude of the last search depends on the size of the surface that is not filled with pieces of ore, and is a destabilizing factor that reduces the sensitivity and accuracy of the determination. content of useful components.

It is impossible to directly measure the contribution of this flux to the magnitude of the total flux of scattered radiation, since the ore pieces and the tray surface, free from them, do not speak as a single effective volume in relation to the batch process. However, due to the fact that the surface of the tray in the irradiation zone 8 is made of a substance whose excitation potential is lower than the primary radiation energy and is not equal to the excitation potential of the element being detected, detector 4 will additionally detect the flux of characteristic radiation from the material from which the surface of the tray is in the irradiation zone in this case titanium.

It is known that under constant measurement conditions the flux of characteristic radiation of a substance from which the tray surface is made

In the irradiated zone, the flux of radiation scattered from this surface is proportional to the size of the tray surface free of ore pieces. Therefore, these streams are interconnected directly proportional to each other and, by measuring the flux of the characteristic radiation of the material of the tray surface, one can take into account the radiation tray scattered from this surface.

The recording equipment 5 calculates the magnitude of the spectral ratio, taking into account the corrections made by registering the radiation flux scattered from the tray surface by the algorithm

„-

H vnT where T is the spectral value

ratio, .4, is the pulse counting rate,

corresponding to the flux of characteristic radiation of the element to be detected;

 - counting rate, corresponding to the total flow

scattered radiation source;

counting rate corresponding to the flux scattered from the surface of the tray in the irradiation zone, not covered with pieces of ore;

To the proportionality coefficient, determined experimentally.

After calculating the magnitude of the spectral ratio, the recording equipment 5 compares its value with a predetermined value that determines the content level of the element being determined in the enrichment products. According to the results of the comparison, the recording equipment issues a signal to the actuator 6, which sends sorted pieces of ore 9 to the center or dump section of the receiving hopper 7.

The proposed device allows at least an increase in the accuracy of determining the content of industrial elements and, therefore, significantly improve the technological performance of enrichment products during X-ray radiometric screening.

Claims (1)

DEVICE FOR X-RAY RADIOMETRIC SORTING OF ORES, including a transporting organ, an ionizing radiation source, a target and a secondary radiation detection system, characterized in that, in order to improve the quality of ore sorting by taking into account the radiation flux scattered from the surface of the transporting organ, the target is mounted on ^: transporting organ. Sg ω y 00 oo 00 ^ 4