SU1670124A1 - Method of homogenization of loose materials - Google Patents

Abstract

The invention relates to the mining industry and is intended for averaging bulk materials. The purpose of the invention is to increase efficiency by increasing the degree of homogeneity of the composition of the material by reducing the deviations of the parameters of the monitored components from the target. Perform sampling of the feed stream. The introduction and separation of the source stream into the main stream and additional streams are performed. Additional streams are selected by determining the spectral density of oscillations of the monitored component in the original stream, and on the basis of this, the frequencies of the harmonics that create the largest fraction of the variance are selected. The number of additional streams is equal to the number of selected harmonics. These flows are delayed relative to the main flow by an amount equal to half the period of oscillation of the corresponding harmonic. After the detention, they are combined and then transferred to the main conveyor. The performance of each stream is proportional to the proportion of dispersion created by each harmonic. 3 il.

Description

This invention relates to the mining industry and can be used to average the bulk material.

The purpose of the invention is to increase the efficiency by increasing the degree of homogeneity of the composition of the material by reducing the deviations of the parameters of the monitored components from the target.

FIG. 1 shows the implementation of the method of FIG. 2 and 3, respectively, a cyclogram of fluctuations in the quality of a real initial flow and a controlled indicator in the average flow.

Bulk material to be averaged by the main conveyor 1, at which a sensor 2 for quality of loose material is installed at some distance from the discharge unit, by which the material is tested and delivered to the loading bin 3 where the qualitatively inhomogeneous material flow is divided into two rapid and qualitatively similar flow. From bunker 3, one stream 4 enters the auxiliary conveyor 5, and the other stream 6 goes directly to the main conveyor 7 leading to the consumer. The flow 4 of bulk material entering the auxiliary conveyor 5 moves in the direction opposite to the main conveyor 7. The computer unit 8, based on the signals from the sensor 2 about the quality of the bulk material, determines the spectral density of oscillations of the monitored component in the source flow, separates the harmonics frequencies creating the highest

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the fraction of the dispersion of the component being monitored, and commands the mechanisms 9 that move and turn the ejection plows 10, which divide the flow 4 into additional flows by an amount equal to the number of harmonics selected. Each additional stream is delayed relative to the main for half the period of oscillation of the corresponding harmonic, and then they are loaded onto the main conveyor 7. Next, the additional flows with a capacity of each proportional to the proportion of dispersion created by each harmonic are combined and moved by the main conveyor 7 and at point A under the bunker connected to the main stream 6.

Claims (1)

Thus, the homogeneity of the qualitative composition is significantly increased. Claim method Averaging bulk materials, including testing the initial stream, isolating and dividing it into the main stream and additional ones, combining additional streams, and then mixing them with the main stream, characterized in that in order to increase efficiency by increasing the degree of homogeneity of the composition of the material by reducing the deviations of the parameters of the monitored components / from the given, the spectral density is determined the oscillations of the monitored component in the initial flow, the frequencies of the harmonics creating the largest dispersion are isolated, the additional streams in an amount equal to the number of harmonics selected, and after they are delayed by an amount equal to half the period of oscillation of the corresponding harmonic, are fed to the main flow, and the performance of each flow is proportional to the proportion of dispersion created by each harmonic but mr fig 1 j and s V9 ": fc