RU2004356C1 - Apparatus for x-ray luminescence separation of minerals - Google Patents

Description

The luminescence signal amplifier 6 is based on a direct current amplifier and is intended to amplify the total luminescence signal caused by the luminescence of air and minerals in the frequency range from 0 to 1 kHz.

The mineral luminescence signal generating unit is based on a differential amplifier.

The air luminescence intensity recording unit 8 contains two adders 13, 14, a peak detector 15, a repeater 16, and a differential amplifier 17. The first input of the first adder 13, which is the first input of the luminescence signal extraction unit 8, is connected to the output and the first input of the amplifier, respectively 6 luminescence signals and differential amplifier. The second input of the first adder 13 is connected to the second input of the second adder 14, the first input of the latter is grounded. The connection point of the first and second adders 13, 14, which is the second input of the air luminescence signal extracting unit 8, is connected to the power supply 4. The output of the first and second adders 13.14 is connected respectively to the peak detector 15 and the repeater 16, the output of the latter is connected to the first and second input of the differential amplifier 17, respectively, the output of the latter, which is the output of the air luminescence signal extraction unit 8, is connected to the first input of the master 9 threshold value of the intensity of the luminescence of minerals and with the second input of the differential amplifier 7.

The first and second adders 13, 14 are based on resistor dividers.

The control signal generating unit comprises a reference voltage source connected in series, a luminescence intensity threshold value adjuster 9, and a comparison unit 10.

The adjuster 9 of the threshold value of the luminescence intensity is made on the basis of the adder and is intended for outputting to the unit 10 of comparison the threshold value of the luminescence intensity as the sum of the voltage of the reference source and the luminescence intensity of air.

Comparison unit 10 is made on an operational amplifier and is intended to compare the mineral luminescence signal with a threshold luminescence intensity value.

Block 11 of the generation of commands for cutting off the useful mineral is made on microcircuits of the 176 series.

Peak detector 15, repeater 16 and differential amplifier 17 are based on operational amplifiers.

The device operates as follows.

Before sorting the threshold value of the luminescence intensity of minerals in the setter 9, a threshold value of the luminescence intensity of luminescence is set equal to the minimum luminescence intensity of the useful mineral by supplying voltage from a reference source.

Next, before sorting and at the moment

5 the absence of luminescent minerals in the detection zone is automatically measured according to the scheme amplifier 6 luminescence signals - block 8 of the extraction of the luminescence signal of air luminescence signal

0 of air and enter the measured signal into the setpoint generator 9 of the threshold value of the mineral luminescence intensity to automatically correct the predetermined separation threshold and into the differential amplifier 7 to extract the mineral luminescence signal from the full luminescence signal and amplify it without distortion.

During the sorting process, X-rays from the X-ray source 3 cause luminescence of air and luminescence of minerals coming from the transport mechanism 2 in the detection zone.

Total luminescence signal

5 of air and minerals is converted by the photodetector 5 into electrical signals and after amplification in the amplifier 6, the luminescence signals are simultaneously transmitted to the first input of the differential amplifier

0 7 and the first input of the air luminescence signal extracting unit 8 (first input of the adder 13). At the same time, the voltage of the power supply 4 is supplied to the second input of the air luminescence signal separation unit 8 (the connection point of the second inputs of the first and second adders 13, 14).

From the output of the adder 13, a signal equal to half the voltage of the power supply 4 and the luminescence signal from the amplifier 6 is fed to a peak detector 15, which stores the maximum value of this signal and then provides it to the first input of the differential amplifier 17.

5

From the output of the adder 14, a voltage equal to half the voltage of the power supply 4 is supplied to the input of the repeater 16 and then to the second input of the differential amplifier 17.

Differential amplifier 17, a common-mode signal equal to half the voltage of power supply 4, attenuates and emits an air luminescence signal. From the output of the differential amplifier 17 (the output of the air luminescence signal extraction unit 8), the air luminescence signal is supplied to the second input of the differential amplifier 7 and to the first input of the master 9 of the threshold value of the mineral luminescence intensity, to the second input of which the voltage of the reference source is supplied.

From the output of the setter 9, the threshold value of the mineral luminescence intensity, equal to the sum of the luminescence intensity of the air and the luminescence intensity of the mineral, is fed to the second input of the comparison unit 10. In the event of a change in the air luminescence signal, the master 9 will automatically correct the threshold value of the luminescence intensity. Thus in the setter 9

automatic adjustment of the separation threshold occurs.

In differential amplifier 7, the common-mode luminescence signal of the air is attenuated, and the luminescence signal of the mineral is amplified to the required level. The amplified mineral luminescence signal from the output of block 7 is fed to the first input of comparison block 10. In block 10, the luminescence signal from block 7 is compared with a predetermined threshold value of the signal from the setter 9. If the mineral luminescence signal exceeds the threshold value of the luminescence intensity from the setter 9, then the comparison unit 10 provides a signal to the command generation block 11, which includes an actuator 12 for mineral cutoff. The use of the invention improves the recovery of high-luminescent minerals during separation.

(56) USSR Copyright Certificate No. 971523, cl. B 07 C 5/342, 1982.

Claims (3)

1. A device for X-ray separation of minerals containing an x-ray source, a unit for recording the luminescence intensity of air and minerals, an output connected to an input of a unit for recording the luminescence intensity of air and with a first input of a unit for generating signals of luminescence of minerals, an output connected to the first input of a unit for generating luminescence of minerals control signal output connected to the actuator control unit, characterized in that the control system generating unit the channel contains a series-connected reference voltage source, a threshold value luminescence intensity adjuster and a comparison unit, the first input and output of which are the input and output of the control signal generating unit, the air luminescence intensity registration unit contains a series-connected voltage source the first adder, a repeater and a differential amplifier, and a second adder and a peak detector connected in series with an output connected to a second input of a differential amplifier, the output of which, which is the output of the unit for recording the luminescence intensity of the air, is additionally connected to the input of the threshold voltage luminescence intensity unit, and the input the second adder is the input of the unit for recording the intensity of the luminescence of air, while the unit for recording the intensity of the luminescence of air ha and minerals comprises a photodetector connected in series and an amplifier DC, the output of which is the output of the register air luminescence intensity and minerals. 2. The device according to claim 1, characterized in that the unit for generating mineral luminescence signals is made in the form of a differential amplifier. 3. The device according to claim 1, characterized in that the adjuster of the threshold value of the luminescence intensity is made in the form of an adder.