UA151901U - Radiometric separator for heap leaching of mineral raw materials - Google Patents

Abstract

The radiometric separator for the piecewise beneficiation of mineral raw materials contains a conveyor belt on which there is a controlled rock mass, a gamma radiation source and detector, a power supply, an amplifier, a pulse counter, a threshold stage and a delay line installed above the conveyor belt, and a sorting mechanism and receiving hoppers for ore and rock located below the working branch of the conveyor. A source, an infrared radiation detector, and an AND gate are additionally connected to the known radiometric separator, installed next to the sorting mechanism, with the first input of the AND gate connected to the output of the delay line unit, the second input of the AND gate connected to the output of the infrared radiation detector, and the output of the AND gate connected to the input of the sorting mechanism.

Description

The useful model belongs to automatic control of technological processes and can be used for automatic control of the process of beneficiation of mineral raw materials.

The well-known radiometer-separator device contains a power supply unit, a detector, an amplifier, a discriminator (former), a recorder, a threshold circuit, a delay line, an executive stage, and a sorting mechanism (Mokrousov V.A. Radiometric beneficiation of nonradiative ores -

M.: "Nedra", 1979. - P. 99.

The disadvantage of the known separator is the lack of exact synchronization of the moment of activation of the sorting mechanism with the moment of passage of a piece of ore through the zone of action, which leads to the fact that the air pulse of the ejector of the sorting mechanism partially does not reach the surface of the piece. This is explained by the fact that the block of the signal delay line cannot ensure the exact synchronization of the operation of the sorting mechanism with the moment of passage of a piece of ore through the zone of action of the air ejector.

The closest analogue is the well-known radiometric separator (B.N. Kravets

Special and combined enrichment methods. - M.: "Nedra", 1986. - P. 52, containing a power supply unit, a gamma radiation source and detector installed above the conveyor belt and a shaping amplifier, a pulse counter, a threshold stage, a delay line and an amplifying stage connected in series, as well as a sorting mechanism installed under the conveyor belt.

The disadvantage of the known separator is that a delay line block is used to synchronize the operation of the sorting mechanism with the moment when a piece of ore passes through the air ejector zone, the flight time of a piece of ore from the conveyor drum to the sorting mechanism is not a constant value, because during transportation, a piece of ore can slip or roll off the belt or get caught in the limiter of an adjacent channel. In addition, the speed of the conveyor depends on its loading with rock mass.

The task of a useful model is to increase the accuracy of matching the pulse of the sorting mechanism with the moment of finding a piece of ore in its area of action.

The technical result of the introduction of a useful model is that the proposed radiometric separator provides the possibility of exact synchronization of the pulse of the sorting mechanism with the moment of finding a piece of ore in the area of action of the air ejector of the sorting

From the mechanism that guarantees the entry of pieces of ore and rock into the appropriate receiving bunkers.

The task is solved by the fact that the radiometric separator for piecewise enrichment of mineral raw materials contains a conveyor belt on which there is a controlled rock mass, a gamma radiation source and detector, a power supply unit, an amplifier, a pulse counter, a threshold stage, and a delay line, which are installed above the conveyor belt, and the sorting mechanism and receiving hoppers for ore and rock, located below the working branch of the conveyor.

According to a useful model, a source, an infrared detector and an AMO logic element are additionally connected to the known radiometric separator, installed next to the sorting mechanism, while the first input of the AMO logic element is connected to the output of the delay line block, the second input of the logic element is connected to the output of the infrared radiation detector, and the output of the logic element "AMO" is connected to the input of the sorting mechanism.

A useful model is illustrated by a drawing showing the functional scheme of a radiometric separator for piecewise enrichment of mineral raw materials.

The radiometric separator for lump enrichment of mineral raw materials contains a conveyor belt 1, on which there is a controlled rock mass, a source 2 and a gamma radiation detector 3, a power supply unit 4, an amplifier 5, a pulse counter 6, a threshold stage 7, and a delay line 8, which are installed above the conveyor belt 1, and the sorting mechanism 9, and receiving hoppers for ore 10 and rock 11, located below the working branch of the conveyor 1, the source 12 and detector 13 of infrared radiation and the logic element "AMO" 14 are installed next to the sorting mechanism 9.

The radiometric separator works as follows. On the conveyor belt 1, the rock mass is transported to the control zone, where it is irradiated piecemeal with the help of a gamma radiation source 2, the intensity of the gamma radiation stream, which is reflected from the surface of the piece, is registered by the detector 3, the signal from which is sent to the pulse counter through the amplifier 5 6, the threshold stage 7 is programmed as follows - if the number of pulses at the output of the counter is above a given level, then the signal for picking a piece will pass from the output of the threshold stage 7 through the block of the delay line 8 and the logic element "AMO" 14 to the sorting mechanism 9 and under by the action of the pneumatic ejector, the piece will be sent to the ore receiving hopper 10, but if the number of pulses from the counter 6 is less than previously programmed, then at the output of the threshold stage 7 the output signal will be equal to zero, the sorting mechanism 9 will not work and the piece of rock under the action of its own weights will fall into the receiving rock hopper 11. The block of the delay line 8 is used is used for the preliminary assignment of the length of the pneumatic pulse of the sorting mechanism 9, depending on the maximum size of pieces of rock mass. Pieces of rock that fly through the zone of action of the sorting mechanism 9 are irradiated by a source 12 of infrared radiation, which is reflected from the surface of the piece and is caught by an infrared detector 13, the output of which is connected to the second input of the logic element "AMO" 14.

The sorting mechanism 9 is activated only when the signals from the delay line 8 and from the infrared detector 13 coincide at the inputs of the logic element "AMO" 14. In this way, the exact synchronization of the activation of the sorting mechanism with the moment of flight of the ore pieces is achieved.

Claims (1)

UTILITY MODEL FORMULA A radiometric separator for lump beneficiation of mineral raw materials containing a conveyor belt on which the controlled rock mass is located, a gamma radiation source and detector, a power supply unit, an amplifier, a pulse counter, a threshold stage and a delay line, which are installed above the conveyor belt, and the sorting mechanism and receiving hoppers for ore and rock, located below the working branch of the conveyor, which is distinguished by the fact that the well-known radiometric separator is additionally connected to a source, an infrared radiation detector and a logic element "AMO", installed next to the sorting mechanism, while the first entrance of the logic element "AMO" is connected to the output of the delay line block, the second input of the logic element is connected to the output of the infrared radiation detector, and the output of the logic element "AMO" is connected to the input of the sorting mechanism. Vacancies Fvplrator lyakh kokusyuovomo Zizhnvnayunya ka kpalvysi dreams OO nya! 1 exquisite IZ didrveh | i: and shi she mm po o po v po V: 'Nnnya ana re nu poof! ! tu i i : Me p. i ! cont. KV, I B ! h. ! side by side and in and in KI! more swarms and ku N yo Be N odi to: Y OVC WITH ZV