SU623481A1 - Method of automatically controlling processes of gravity concentration - Google Patents

Claims (2)

The invention relates to the mining industry, namely to the gravitational enrichment of minerals, primarily in trenches and conical separators. There is a method for automatically controlling the processes of gravity enrichment, which consists in measuring the quantity and density of the initial feeds 1. However, with this method, the control efficiency is low, since it is impossible to control the effectiveness of the mineral separation process. A method is also known to automatically control the processes of gravitational enrichment using horn-active grain-indicators 2 This method does not control the dynamics of the movement of the entire flow of extracted particles at the enrichment apparatus, and therefore, the quality control of the enrichment process is low. The purpose of the invention is to increase the quality of control. This is achieved by the fact that the measured spatial position of the grains and dicators in the pulp flow simultaneously above and below the flow and the found position determine the dynamic characteristics of the process. The spatial position of the grain indicators gives a complete picture of the dynamics of the flow of recoverable particles, and the parallel arrangement of detectors in the cross-sectional plane of the pulp flow on both sides of the pulp flow eliminates the influence on the measurement accuracy of the parameters of the stream itself. All this leads to an increase in the quality of control. The proposed method is illustrated in the drawing. The pulp, a thin layer stack on the inclined surface of the trough 1 or a conical separator, is divided into two streams: concentrate and tails. Using a metering device 2 installed at the inlet of the processing apparatus, radioactive indicator grains are loaded into the pulp stream. At the output of the enrichment apparatus in the cross sectional plane of the pulp flow on both sides of the pulp flow, radioactive radiation detectors 3 and 4 are parallelly located in blocks with collimation gaps. 3 The intensity of radioactive radiation perceived by each of them depends on the product of the thickness of the pulp layer, which attenuates the radioactive radiation from grain-indicators, by the coefficient of linear weakening of the layer. In the immediate vicinity of the detectors 3 and 4, in the blocks with collimation gaps, the radio active radiation source 5 is installed on one side and the detector 6 is on the one hand, the radiation intensity perceived by detector 6 depends on the product of the thickness of the entire pulp flow and its linear coefficient. weakening. The pulses from the detectors 3, 4 and 6 are fed to the electronic circuit 7, which, in accordance with the measured values of the radiation intensities, produces a signal proportional to the spatial position in the vertical plane of the grain-indicators located in the pulp flow. In addition, the electron on the circuit controls the dispenser 2 and automatically locks, consisting in disconnecting the channel from the detector b when the radioactive substance is detected by sub-detectors 3 and 4. 1 The proposed method of automatically controlling the processes of gravitational enrichment does not require precise quantitative dosing of radioactive grain-indicators at the entrance to the apparatus. The difference in the activities of individual indicator grains in the metered portion and the activities of the portions themselves do not affect the measurement results. Claims The method of automatic control of gravitational enrichment processes using radioactive grain-indicators, characterized in that, in order to improve the quality of control, the spatial position of the grain-indicators in the pulp stream is simultaneously determined from above and below the stream and the found position process. Sources of information taken into account in the examination 1. Reference book on ore beneficiation, vol. II, part II, M, Nedra, 1974, p. 415. 2. USSR author's certificate number 126429, cl. At 03 To 13/06, 1960. Socma Concentrate