SU1024105A1 - Method of controlling disintegration floatation cycle - Google Patents

Abstract

A METHOD FOR CONTROLLING A GRINDING-FLOTATION CYCLE, which includes changing the water supply to the classifier depending on the deviation of the size of the classifier's discharge from a given value, characterized in that, in order to improve the quality of control when processing ore with variable inclusions, the content of the extracted metal in the product of the initial flotation chambers and correct the set value of the classifier’s discharge size, and the correction of the classifier’s overflow specified value is made atno proportional otnoscheniya recoverable metal content in the product primary flotation chambers to its content in the ore. (L GS 4 SL

Description

The invention relates to the enrichment of minerals and is intended to control the grinding and flotation cycle.

There is a known method for automatically controlling the process of wet grinding, which includes controlling the size of the discharge of the classifier depending on the grindability of the ore being processed 1.

The disadvantage of this method is the lack of control over the nature of the dissemination and degree of opening of useful minerals, which does not allow obtaining high technological indicators of enrichment during the processing of ore with variable impregnation.

The closest to the invention according to the technical essence is the method of controlling the grinding-flotation cycle, which includes changing the water supply to the classifier depending on the deviation of the particle size of the classifier from the specified value.

Its essence is that during the processing of ore with variable impregnation, the sample of the foam product of the initial flotation chambers is classified by a given particle size, the ratio of the large class to the small quantity is determined and, depending on the ratio found, the ore size 2 is proportionally changed.

The practical implementation of this method is rather complicated, since there are no devices for operative control of the amount of a certain size class in the froth flotation product, which does not allow to automate the process.

In addition, this ratio, reflecting the character of the dissemination of the extracted minerals, does not sufficiently accurately determine the degree of their disclosure, which makes it difficult to maintain, with a sufficient degree of accuracy required for the flotation process, the size of the grinding.

The aim of the invention is to increase the quality of control in the processing of ore with variable impregnation.

This is achieved by the method of controlling the grinding-flotation cycle, which includes changing the water supply to the classifier depending on the deviation of the classifier’s discharge size from a given value, measures the content of recoverable metal in the ore and in the product of the initial flotation chambers and corrects the set value of the classifier discharge size , moreover, the correction of the set value of the classifier drain is inversely proportional to the ratio of the content of the recoverable metal in the initial product to Amer flotation to its content in the ore.

The essence of the method is as follows. It is assumed that the reagent mode is maintained at an optimum level by automatic control systems. In this case, the value of the ratio found characterizes the degree of opening of useful minerals.

The degree of discovery of useful minerals can be determined by plotting the content of the useful component in the chamber product of the initial flotation cells from its value in the ore. In the absence of separation of the useful component from the waste rock, i.e. with zero disclosure of recoverable minerals, the metal content in the chamber product of the initial

flotation cells will be equal to its content in the ore. Therefore, the direct equal content of the metals in the chamber product. The ore is a zero opening line. The more the deviation from this line is the better the curve (while maintaining the reagent mode at the optimal level), the higher the degree. uncover beneficial minerals.

Thus, the ratio of recoverable metal in the chamber product.

The initial chambers of flotation to its content in the ore characterizes the degree of opening of useful minerals and can be used to control the size of grinding.

The optimal relationship between the required size of the grinding size and the controlled ratio is determined on the basis of a study of the grinding-flotation cycle of a particular industrial process.

As a result of the analysis of the data of the industrial studies of the crushing-flotation cycle, a regression equation is obtained depending on the optimal grinding size as a function of the ratio of the total content of useful minerals in the chamber

0 product initial flotation cells.

And further, it adjusts the given value of the size in the discharge of the classifier depending on the ratio of the content of its recoverable metal in the chamber product of the initial flotation cells to its content in the ore.

The drawing shows a device for implementing the proposed method.

The device contains a system for automatic control of the reagent mode of the flotation process (not shown), the system

0 stabilization of the size of the classifier discharge, including the sensor 1 size, the controller 2 and the actuator 3, which by means of the regulator changes the water flow into the classifier, maintaining the size of the product in its drain at a given level; sensors of the content of recoverable metal in the initial feed (ore) 4 and chamber product initial

flotation cells 5 and computing unit 6 ,. calculating the ratio of the magnitude of the signal coming from sensor 5 to the value of the signal coming from sensor 4, the output of which is fed to the input of controller 2:

Control is performed as follows.

When the nature and size of the disseminated minerals change, due to maintaining the size of the drain-classifier at a constant level, the degree of mineral opening and, consequently, the metal content in the chamber product of the initial flotation chambers will change (the reagent mode is maintained at the optimum level).

Thus, as the degree of useful minerals decreases, the metal content in the chamber product of the initial flotation chambers will increase, which will be detected by sensor 5 and the signal from it will increase. At the same time, the signal of the ratio of the metal content in the chamber product of the initial flotation chambers to its value in the ore, calculated by computing

unit 6, and then the measuring unit of the regulator 2 will receive a signal about the change in the task of the classifier’s particle size stabilization system downwards. Regulator 2c using the actuator 3 will increase the flow of water into the classifier, driving the size of the product in its drain to the given one. With an increase in the extent of the discovery of useful minerals, i.e., in the case when ore

with a larger impregnation of these minerals, the signal of a controlled ratio of the metal content in the chamber product of the initial flotation cells to its value in the ore, calculated by computational

unit 6, decreases, and the input to the controller 2 will be signaled to increase the classifier discharge size. The regulator 2 with the help of the actuator 3 will reduce the flow of water into the classifier, which leads itself;

plum to the set value.

The application of the method will allow to improve the technological indicators of enrichment, since the regulation of the grinding size will be made taking into account the degree of opening of useful minerals.

Claims (1)

METHOD FOR CONTROL OF MILLING AND FLOTATION CYCLE, which includes changing the water supply to the classifier depending on the deviation of the fineness of the classifier from the set value, characterized in that, in order to improve the quality of control during the processing of ore with variable impregnation, the content of recoverable metal in the ore and in the product of the initial flotation chambers is measured and adjusted the set value of the fineness of the classifier drain, and the correction of the set value of the fineness of the classifier drain is inversely proportional to the ratio of the content extracted of metal in the product of the initial flotation chambers to its content in ore.