SU1146091A1 - Method and apparatus for automatic stabilization of sensitivity of x-ray radiometric separator - Google Patents

Abstract

1. A method of automatically stabilizing the sensitivity of an x-ray radiometric separator of ore pieces, including recording the main and reference signals, extracting the error signal between them and using it to adjust the sensitivity of the spectrometric tract, characterized in that, in order to increase the efficiency of the separator, directly during the separation from the main the signal is additionally assigned a control error signal, set the limits of permissible signal changes and and leaving it for predries without stopping the supply of ore, briefly serves a reference signal, by which the sensitivity of the spectrometric tract is regulated, at this moment block the formation of the main signal and direct the pieces to the separation concentrate. 2. A method according to claim 1, characterized in that an intense fluorescent characteristic radiation line of one of the rock-forming or ore elements is selected and recorded continuously from the ore pieces, and in its absence the scattered radiation peak signal They are also continuously in tracking mode. 3. A device for automatic stabilization of the sensitivity of an X-ray radiometric separator, with (L holding the radiation source, target and series-connected detector and amplifier, the output of which is connected to the inputs of two differential discriminators, the outputs of one fluoride are connected to the inputs of the comparator unit, and the output of the latter is connected (input of the regulator, that is, in order to increase the efficiency of the separator, it is equipped with two additional differential discriminators, an additional comparison unit and an actuator, the target-frame is movable and mechanically connected to the actuator, the amplifier output is connected to the inputs of additional differential discriminators, the KOTopbtx outputs are connected to the inputs of the additional comparison unit, the output of which is connected to the actuator the torus is connected to the control input of the amplifier.

Description

The invention relates to the automatic sorting of mineral raw materials, and more specifically to methods and devices for monitoring and adjusting the sensitivity of X-ray radiometric separators. A known method of stabilization in measuring the flux of radiation is based on the extraction of two control signals from the input (measured) signal and the sensitivity control with the help of these signals. As control signals, a signal significantly dependent on a change in sensitivity is used, for example, a signal proportional to the intensity of the measured radiation flux (main signal), and a signal dependent on intensity measurement to a much lesser extent, for example, a signal proportional to the density of the measured flow. radiation (pilot signal) L1 J. A device is known for stabilizing the radiation flux during measurement, which contains an amplifier radiation detector, an intensity signal unit and a measuring unit direct flux of radiation (e.g., pulse integrator standardized), the comparison unit and the controller. In this device, the detector is connected to the amplifier and the output of the module is connected to the inputs of the intensity and measured flux signal blocks associated with the inputs of the comparison unit. The output of the comparison unit is connected to the controller input connected to the control input of the detector j. The disadvantage of the method and device is the low sensitivity of the error signal for adjusting and rigidly stabilizing the positions (amplitudes) of the analytical lines (peaks) in the instrumental spectrum of the measured radiation, due to the comparison of the main and reference signals in an integral form (the entire emission spectrum) without differential areas in the spectrum of the compared signals. There is a method for automatically stabilizing the sensitivity of the metric path spectrum, including recording the main and reference signals, extracting the error signal and using it to adjust the sensitivity of the spectrometric path 2. A device is known for automatically stabilizing the sensitivity of the spectrometric path containing a radiation source, a target target and sequentially connected detector and amplifier, to the output of which two differential discriminator inputs are connected A cavity, the outputs of which are connected to the inputs of the comparison unit, and the output of the controller, an integrating device and a controlled high-voltage converter are connected to the output of the latter. A disadvantage of the known method and device is the low use efficiency for automatic stabilization of the sensitivity of the X-ray radiometer seperator, which is caused by the following factors: 1. The deterioration of the quality of the main signal during a constant or simultaneous influence of the reference signal. In this, the influence of a reference signal (detection by a detector, for example, of a fluorescent X-ray radiation of any element — a frame or monochromatic radiation of a reference gamma source) increases the pulse loading of the detector, which leads to a deterioration of its spectrometric characteristics and sensitivity to the main signal. 2. Insufficient accuracy of stabilization of the amplitudes of analytical lines, scientific research institutes in the instrumental spectrum of recorded radiation, since in this case it is impossible to control the sensitivity of the spectrometric tract of the separator directly in the analytical region of the spectrum due to the superposition and influence of the reference signal on the analytical main signal lines. 3. The impossibility of building an optimal scheme for regulating the sensitivity of a separator for one re-, paired signal, since in order to ensure an optimal operating mode of the separator, it is necessary to supply a reference signal in the analytical domain and only at the moment of displacement of the hardware spectrum. Otherwise, the untimely and frequent supply of the signal requires either stopping the supply of the equipment or passing a significant part of the pieces without analyzing the valuable components contained in them, which negatively affects the performance and quality of the separator sorting products. As a result, these disadvantages reduce the efficiency of the X-ray radiometric separator. The purpose of the invention is to increase the efficiency of the X-ray radiometric separator. The goal is achieved by the fact that according to the method of automatic stabilization of the sensitivity of an x-ray radiometric separator of ore pieces, including the registration of the main and reference signals, the separation error signal and the use of its dp adjust the sensitivity of the spectrometric tract, during the separation process, the control signal is additionally separated from the main signal sets the limits of the allowed signal changes and when it goes out of limits without When the ore is supplied, the reference signal is briefly supplied, which is used to regulate the sensitivity of the spectral tract, block the formation of the main signal at this moment, and direct the pieces to the separation concentrate. In addition, an intense fluorescent characteristic radiation line from one of the rock-forming or ore elements is selected and recorded as a control signal from ore pieces, and in its absence, the scattered radiation peak is recorded, and the error control signal is also continuously monitored. . A device for automatically stabilizing the x-ray sensitivity of a noradiometric separator, containing a radiation source, a target frame and a series-connected detector and amplifier, to the output of which are connected the inputs of two differential discriminators, whose outputs are connected to the inputs of the comparator unit, and the output of the controller is connected to two additional differentiators with feren101al discriminators, an additional comparison unit, and an executive mechanism, with the target-frame built mobile and mechanically connected to the actuator; the output of the amplifier is connected to the inputs of additional differential discriminators, the outputs of which are connected to the inputs of the additional comparison unit, the output of which is connected to an actuator; the output of the regulator is connected to the control input of the amplifier. With the introduction of additional units, the proposed device allows the stability of the instrumental spectrum of the radiation detected by the detector to be controlled, and with the help of a target with the actuator, according to the error control signal, automatic control of the separator sensitivity is performed only when the analytical lines in the instrumental spectrum are shifted, thereby achieving the possibility control the sensitivity of the separator directly in the analytical area of spectrum measurement. FIG. 1 shows the specie; in fig. 2 - a device that implements the proposed method. FIG. 1a shows an example of the instrumental spectrum of secondary radiation from pieces of ore (the main signal) in the L-lead separation of one of the polymetallic ores, and the dotted line indicates a possible shift in the instrumental spectrum due to a change in the separator sensitivity; in fig. 16 shows the instrumental spectrum of the reference signal from the target (in this case, the mouse), whose analytical line (10.5 keV) corresponds to the analytical spectral region, which includes the lines of the L-series of lead (, 5 and LgPg 12.6 keV). The shaded differential portions of the spectra of the I and II control and reference signals use the comparison and detection of mismatch signals. The above example shows the use of fluorescent characteristic radiation of iron (one of the rock-forming elements in this ore) as a control signal. The device includes an X-ray sensor 1 of a noradiometric separator containing detector 2, a radiation source 3, a target 4 with an executive mechanism 5, amplifiers 6, connected to detector 2, control unit 7, consisting of additional differential discriminators 8 and 9 and comparator unit 10 (control of the target-reper) and unit 11 for processing the reference s Ignala, turn on; Hygiene differential discriminators 12 and 13 and comparison unit 14, controller: torus 15. The output of amplifier 6 is simultaneously connected to the inputs of all differential discriminators 8, 9 and 12, 13, the outputs of which are in the control unit 7 and the unit 11 of the reference signal, respectively, are dinene with the inputs of the target control unit 10 and the comparator unit 14 The outputs of the target control unit 10 and the comparator unit 14 are respectively connected to the executive mechanism 5 and the controller .15 connected to the control input of the usb amplifier 6. Automatic stabilization method Determine the sensitivity of the X-ray radiometric separator as follows. Ore chunks 16 are fed to the measuring zone of sensor I, irradiated with x-ray or gamma radiation from source 3, the secondary radiation from chunks 16 — the main signal is recorded by detector 2. The control signal — the fluorescent characteristic radiation of one of the elements is taken from the main signal continuously in tracking mode for information from each analyzed piece of ore to be separated. When the mismatch control signal in the target control block 10 goes beyond the specified allowable values, a reversal signal — fluorescent X-ray radiation K-series of the reference element hardened on the target 4 — is shortly interrupted without ore supply being applied. By the reference error signal, the control is performed the gain of the spectrometric tract of the X-ray radiometer separator (detector 2 9 in combination with amplifier 6), stabilizing the amplitudes of the analytical lines registering radiation in the instrumental spectrum. The control and reference error signals are selected by comparing the pulse counting statistics in the differential spectral regions I and I 1 of the control and reference signals using differential discriminators 8, 9 and 12, 13 in the control unit 7 and the reference signal processing unit 11. At the time of registration of the reference signal, the ore chunks are not irradiated and sent directly to the concentrate without analyzing their containing elements in order to eliminate the loss of valuable components. The conditions for the supply and registration of the reference signal, the mode of operation and the parameters of the comparison circuit 14 and the controller 5 are chosen so that the stabilization time of the separator sensitivity does not exceed 1-2 s, during which a small part of the ore from the whole mass is passed without sorting. A prerequisite for selecting a reference element is the equality or proximity of the quanta energies of the characteristic x-ray radiation from the reference element and the element that is determined in pieces, the content of which leads to separation. Due to this, optimum adjustment is achieved in the optimal mode and the sensitivity of the separator is stabilized (hard stabilization mode). The device works as follows. When a piece of ore 16 passes in the measurement zone of sensor 1 when the piece 16 is irradiated with gamma or X-ray radiation from source 3, a secondary radiation spectrum is formed, consisting of the fluorescent characteristic X-rays of the elements and the scattered radiation of source 3. The secondary radiation is detected by detector 2, the spectrum of pulses through which the amplifier 6 enters the analyzer separator unit, where, according to a certain algorithm, the recorded instrument-spectrum is analyzed and p about the ownership of a piece of the tail (tails) or enriched (concentrate) products, using block 7 of the control, from the spectrum of the secondary radiation from each analyzed piece 16, the differential portions of the spectrum of the control signal (of the intense k line of the characteristic radiation of one of elements) differential discriminators 8 and 9 and compares with the number of pulses in these areas in the target control unit 10. When the signal of the dissipation signal, from the reference radiation outside the specified allowable values, the control unit 10 controls the target, the signal of actuation of the actuator 5 is received, and the target reper 4 is placed in the working position in front of the detector, blocking the primary radiation beam of the source 3. At this moment the detector 2 The fluorescent characteristic radiation of a reference element mounted on the target (reference signal) is recorded, using its analytical line using the reference signal processing unit 11. The ala and the controller 15 regulate the sensitivity of the spectral spectral path of the separator. This is accomplished through differential discriminators 12 and 13, which differentiate the differential portions of the spectrum of the reference signal, the comparison circuit 14, select the reference error signal, and the regulator 15, which converts the reference radiation error signal into a control signal that acts on the amplifier 6 until it disappears the appearance of the error signal from the comparison circuit 14. After that, the target-reper 4 returns to the original state, providing the possibility of measurement, analysis and sorting of pieces by the separator. During the registration of the reference signal, the delivery of pieces of separations does not stop, the target reper 4 closes the primary radiation in order to exclude the irradiation of the pieces and the effect of their radiation on the reference signal. At this moment, the non-analyzed pieces of ore are sent directly to the separation concentrate in order to eliminate the loss of the valuable component. At the same time, a sufficient time for analyzing the reference signal of only 0.5-1.0 s permits to send a tiny fraction of the total separated rock mass to the concentrate without sorting. A basic object is the method and device for differential stabilization of the spectrometric tract of X-ray radiometric equipment. The proposed method, as compared with the base object, provides continuous monitoring of the position of the analytical lines in the instrumental spectrum, carried out directly from the main signal — radiation from the pieces, the optimal mode of feeding the reference signal and adjusting the sensitivity of the spectrometric tract of the separator directly in the analytical area of the secondary radiation spectrum. Together, these factors increase the efficiency of the X-ray radiometric separator (productivity and quality of sorting products). The proposed device allows not only to implement a method of automatically stabilizing the sensitivity of an X-ray radiometric separator in the optimal mode and thereby increasing its efficiency (production, quality of sorting products), but also contributes significantly to increasing the autonomy of the separator, simplifying its configuration and maintenance during preventive maintenance. work and repair.

V5

Claims (3)

1. A method for automatically stabilizing the sensitivity of an x-ray radiometric separator of ore pieces, including recording the main and reference signals, extracting a mismatch signal between them and using it to control the sensitivity of the spectrometric path, characterized in that, in order to increase the efficiency of the separator, directly in the process of separation from the main of the signal additionally implements the mismatch control signal, sets the limits of permissible changes in the signal at de his PREV while feeding the ore momentarily supplied reference signal, which is performed by the sensitivity adjustment spectrometric channel, blocking out at this point the formation of the main signal and is sent into the separation pieces concentrate. 2. The method of pop. 1, characterized in that, as a control signal, an intense line of fluorescent characteristic radiation of one of the rock-forming or ore elements is selected and recorded continuously from the ore pieces, and in the absence thereof, the scattered radiation peak is recorded, and the mismatch control signal is also continuously isolated in the tracking mode. 3. A device for automatically stabilizing the sensitivity of an X-ray-3 noradiometric separator containing a radiation source, a target detector, and a series-connected detector and amplifier, the output of which is connected to the inputs of two differential discriminators, the outputs of which are connected to the inputs of the comparison unit, and the controller input is connected to the output of the latter, The point is that in order to increase the efficiency of the separator, it is equipped with two additional differential discriminators, additional m comparison unit and the actuator, and the target-benchmark is movable and mechanically connected with the actuator, the output of the amplifier is connected to the inputs of additional differential discriminators, the outputs of which are connected to the inputs of the additional comparison unit, the output of which is connected to the actuator, while the output of the controller is connected with the control input of the amplifier.