SU1375341A1 - Method of automatic monitoring of content of magnetic fractions in concentration products of magnetic separator - Google Patents

Abstract

This invention relates to mineral processing processes. The purpose of the invention is to improve the accuracy of monitoring magnetic fractions with parallel operating separators and to extend the functionality by providing technical diagnostics of the magnetic separator state. In the process of ore beneficiation, the magnitude of the magnetomotive force created by the magnetic system of the separator, the speed of movement of the working member, the productivity of the enriched product at the inlet of the separator are set. Magnetic induction or field strength is measured in the working area of the separator in the space bounded by the inner surface of the working body and the surface of the pole pieces. The results of measurements of the parameters characterizing the magnetic field in the working zone of each separator are averaged, they set the permissible minimum level of one of the parameters, which characterizes the magnetic field of the separator, compared with the measured value of this parameter. According to the results of the comparison, a judge of the technical condition of the separator. 4 hp ff, 2 IL. (C O)

Description

from “h SP with 4;

The invention relates to the automation of mineral processing and can be used in the automatic control of the operation mode of magnetic separators for wet and dry enrichment of all types.

The purpose of the invention is to improve the accuracy of monitoring the content of magnetic fractions in the enrichment products of a magnetic separator, automatic control of the content of magnetic fractions at the output of a group of parallel operating separators, and technical diagnostics of its condition.

FIG. 1 shows a functional diagram of an apparatus for automatically controlling the content of magnetic fractions in the enrichment product of a drum separator; in fig. 2 - static dependences of the magnetic induction field of the magnetic separator B on the content of magnetic fractions p in the enrichment products when the magnetic induction sensor is installed on the axis of the poles (curve A) and when installed in the interpolar space (curve B).

The method consists in the fact that prior to the beginning of the measurements the nominal operating mode of the separator, namely the magnetomotive force, the productivity of the enriched product at the inlet of the separator, the speed of movement of the working element (drum or sheet movement for belt separators) are predetermined.

The magnetic flux is equal to Ф В S, where В is the magnetic induction of the field, 5 is the area of the section of the magnetic circuit. Magnetic induction is equal to, where is the magnetic constant; ji is the magnetic permeability of the medium; H - magnetic field strength.

Since B and H are related to the magnetic flux Φ, to control the magnetic permeability of the magnetic product of the separator, any of these parameters characterizing the magnetic field can be measured. Therefore, during the operation of the separator, the magnetic field strength or the magnetic induction in the working zone is measured separator.

When the separator's working body moves with a layer of magnetic enrichment product in a separator magnetic field, they are induced by a vortex electromagnetic field, which creates weak high-frequency oscillations of the main floor of the separator, which are smoothed or filtered out because they are interferences. Thus, from the measured signal, only the regular component of the parameter characterizing the magnetic field in the working zone of the separator, which determines the interpolar conductivity, and, consequently, the magnetic permeability and the content of magnetic fractions in the enrichment product, is separated.

The working area of the separator consists of a recovery zone and a transport zone. In the proposed method, the magnetic-field characteristics are controlled (the magnitude

magnetic field strength or magnetic induction) in the zone and modes of transportation of the magnetic product, since in this zone the process of extracting the magnetic product before unloading is already

maximally stabilized by its characteristics, i.e., the magnitude of the magnetic field strength or the magnitude of the magnetic induction in the working area of the separator is measured in the space bounded by the inner surface of the working body of the separator and the surface of the pole pieces of the permanent magnets of the magnetic system, as in this area the intensity and degree of influence of the magnetic permeability of the enrichment product are maximum and, in addition, this area is closed from harmful

Because of the influence of external fields, dirt, mechanical effects, therefore, the accuracy and noise immunity of the monitoring method increases. Accuracy is also increased if the measurement results are averaged by calculating 5 the arithmetic mean of the parameter characterizing the field of the magnetic separator.

When the pulp enters the interpolar space, the magnetic circuit is bypassed and the magnetic field of the separator on the working body surface falls below the permissible level, which corresponds to its emergency state, therefore, for technical diagnostics of the magnetic separator state, it is necessary to set, for example, the acceptable minimum value magnetic field strength and compare it with the measured value.

In parallel work of a group of separators, the magnitude of the magnetic field intensity or the magnitude of the magnetic induction of each separator is measured, the measured values are summed up, and then divided by the number of separators in the group and the average fraction of the measured content in the intermediate product at the output of the group working in parallel separators.

The power, which is an ore pulp with a capacity of solid Q const and density p const (Fig. 1),

0 enters the bath 1 separator. Magnetic product 2 is extracted from the pulp by a magnetic field created by a magnetic system, consisting of pom 3 and permanent magnets 4, and concentrated on the surface of the working body, which is

5, a magnetic separator drum 5 rotating at a rate of co const. The content of magnetic fractions in a magnetic product changes the magnetic flux F. As

0

The sensor of the parameter characterizing the magnetic field of the separator may use the sensor 6 for the magnetic field strength or magnetic induction. The signal from the sensor is filtered from interference by filter 7, compared with the minimum allowable value of the magnetic field strength or the minimum allowable value of magnetic induction in block 8 of the comparison.

If the measured value of the parameter characterizing the magnetic field in the working zone of the separator is greater than or equal to the minimum allowable value, it goes to the measuring secondary device 9. Otherwise, the separator alarm condition signal is given to the alarm unit 10, and the secondary device 9, as shown which control the content of magnetic fractions in the enrichment products is turned off.

Example. Before feeding the pulp to the separator, the nominal intensity characterizing the magnetomotive force created by the magnetic system of the separator on the drum surface against the center of poles is set at 96 kA / m, the nominal rotation speed of the working element, in this case drum, is 1.2 m / c, set the productivity of enriched ore at the inlet of the separator at the level of 90 t / h.

Using the Hall sensor 6 (Fig. I), glued to the surface of the pole piece of the magnetic system from the inside of the separator drum, the magnitude of the magnetic field strength is measured. The resulting Hall EMF is amplified and filtered from interference by filter 7, and the content of the magnetic fractions in the enrichment product is monitored by the received signal.

The magnitude of the magnetic field strength is measured in the space between the inner surface of the drum 5 of the separator and the center of the fifth pole tip of the magnetic system of the separator, calculated along the drum 5, and the average measurement during the control is calculated from the measurement results obtained. Averaging is performed by the secondary integrator 9.

With automatic control of the content of magnetic fractions at the output of a group of parallel-operating separators, the signals from Hall sensors 6 are summed, the resulting EMF is divided into KOviH4ecTBO separators in the group. This operation can be performed using a microprocessor computing device.

For the purpose of technical diagnostics of the separator, in block 8 a reference voltage is set that corresponds to an acceptable level of tension, for example 48 kA / m, this voltage is compared with the Hall sensor 6 EMF, and if this difference is zero, then a signal is issued to block 10 signals a separator failure.

The proposed method eliminates the influence of the pulp density when determining the content of magnetic fractions, since the separator's working body contains a layer of pure magnetic product without water that goes along with the non-magnetic product. A layer of magnetic product is the result

enrichment of the magnetic enrichment, therefore, control of its magnetic permeability significantly increases the accuracy of determining the content of magnetic fractions in the enrichment products.

Claims (5)

1. The method of automatic control of the content of magnetic fractions of the product.x enrichment of the magnetic cei cipaTopa, based on the determination of the ve, of the first; .. magnetic permeability of the product enrichment. , characterized in that, with utMbio of the control accuracy, set the magnitude of the magnetomotive force created by the magnesium separator system, the speed of movement of the separator's working body, the enriched product capacity at the separator inlet, measure the magnitude of the magnetic field strength, and the magnitude of the magnetic induction E; the working area of the separator, from the measured value, the component, determining the interpolar magnetic conductivity of the separator, is determined, by which the magnetic permeability of the enrichment product is determined and the content of the 11e magnetic fractions in the enrichment products is controlled. 2. The method according to claim 1, in that the value of the interpolar magnetic conductivity of the separator is determined by measuring the magnitudes of the magnetic field strength. Field or magnetic induction in the space bounded by the inner surface of the working body and the surface of the pole tips of the permanent magnets of the magnetic system. 3. Method by im. 1 and 2, distinguished by the fact that the magnitude of the inter-pole magnetic conductivity of the separator is determined by separating the composition from the arithmetic mean value, the period, chemically measured values of the magnetic field strength or magnetic induction. 0 4. The method according to paragraphs. 1-3. different j (that, in order to increase the accuracy of controlling the content of magnetic fractions with parallel operating separators, the magnitude of the interpolar magnetic conductivity of the separators is determined by measuring 5 at the output of a group of parallel separators of magnetic field strengths or the magnitude of the induction of each separator, summing them and divide by the number of senators in the group. 5. The method according to paragraphs. 1 and 2, characterized in that, in order to expand the functional capabilities by providing technical diagnostics of the magnetic separator state, the allowable minimum value of the magnetic field strength or the magnetic induction value is set, it is compared with the measured one and the technical condition of the magnetic field is determined by the results. separator. / 0g.7