RU1836985C - Column flotation control device - Google Patents

Abstract

SUMMARY OF THE INVENTION: The column machine includes a chamber with aerators and discharge devices for foam and chamber products. This goal is achieved by the fact that in the upper part of the machine chamber an expander is made in the form of a truncated inverted pyramid, the side walls of which are configured to change the installation angle relative to the smaller base of the expander, a foam foam vacuum receiver is also installed over the expander, also made in the form of a truncated pyramid with two walls that change their installation angle relative to the smaller base of the vacuum foam receiver, a solid flow sensor is installed in front of the machine, which is coupled to a drive device for varying the setting angle of the side walls and the dilator penopriemnika vacuum, and with the control systems of electric motors vertical movement of the vacuum gate penopriemnika and for changing the installation height of the foam layer level in the machine chamber. 3 ill. sl c

Description

The invention relates to mineral processing in a flotation process and relates to devices for controlling a flotation column process in a pneumatic machine.

The purpose of the invention is to increase the accuracy of controlling the flotation column process.

The goal is achieved in that the developed device ensures that the specific surface area of the foam layer in the machine chamber matches the solid flow rate in the original pulp, as well as the surface area of the vacuum foam receiver of the surface of the foam layer of the material being enriched in the machine chamber.

The essence of the developed device is as follows. The column machine includes a chamber with aerators and devices for unloading foam and chamber products. The goal: in the upper part of the chamber, an expander is made in the form of a truncated inverted pyramid, the side walls of which are configured to change their installation relative to the smaller base of the expander, a foam foam vacuum receiver is installed above the expander, also made in the form of a truncated pyramid with two opposite walls that change its installation angle relative to the smaller base of the vacuum foam receiver, peso

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The machine is equipped with a solid flow sensor, the output of which is with a drive device for changing the installation angle of the side walls of the expander and the vacuum foam receiver, as well as with motor control systems for the vertical movement of the vacuum foam receiver.

In FIG. 1 shows the proposed device, a General view; in FIG. 2 and 3 - section AA in FIG. 1 with the lowered and raised vacuum foam receiver (the loop for controlling the flow of reagents supplied to the machine chamber for flotation is not shown).

The proposed device (Fig. Includes a chamber 1, a machine, in the lower part of which aerators 2 and a device 3 for removing the chamber product are installed), in the upper part of the chamber 1 an expander 4 is made in the form of an inverted truncated pyramid, the two opposite side walls of which 5 are made with the possibility of changing the angle of their installation is relatively smaller than the base, the side walls 5 are kinematically connected with a device 6 for changing the angle of their installation, a vacuum foam receiver 7, made in the form of intersection of the pyramid, the two side walls of which 8 are made with the possibility of changing the angle of their installation relative to the smaller base of the foam receiver 7 and articulated with a device 9 for changing the angle of their installation. The device 10 is designed to vertically move the foam receiver 7 and articulated with the motor 11. The electric motor 12 is designed for vertical the movement of the gate 13, providing a change in the height of the foam layer in the chamber of the machine 1, at the inlet of the machine there is a sensor 14 for solid flow, including a dense p 15, a flow meter 16 and a multiplication unit 17. The output of the sensor 14 is electrically connected to the controller 18 for changing the angle of installation of the side walls of the expander, the output of which is connected to the drive device 19 and the control systems 20 and 21 of the motors 11 and 12.

The operation of the device is as follows.

It is known that the process of column flotation of minerals is significantly affected by the specific surface area of the foam layer in the chamber 1 of the machine, i.e., the ratio of the surface (mirror) of the foam layer to the volume of the chamber of the machine (). Moreover, for all operating modes of the machine it is necessary that the change in flow

solid in the initial pulp corresponded to a proportional change in the specific surface of the foam layer. The pulp treated with reagents is fed to the input of the chamber 1, and the content of solids entering the flotation is determined with the aid of the solid flow sensor 14. In the chamber 1 of the machine, when air is supplied through the aerators 2, a column flotation process takes place, as a result of which the useful component in the form of a foam product is removed from the chamber of the machine through the expander 4, and the chamber product (tails) through the device 3 for removing the chamber PRODUCT.

If the solid flow rate in the initial pulp corresponds to the nominal (predetermined) value, then the signal from the sensor 14 does not enter the controller 18, while the specific surface of the foam layer remains unchanged. In the case of an increase in the amount of solid in the pulp entering the flotation, the sensor 14 receives a signal to the controller 18, which drives the drive device 19, kinematically connected with the devices 6 and 9 to change the installation angle of the side walls 5 of the expander 4 and side walls 8 of the vacuum foam receiver 7. Side walls 5, by changing the installation angle with respect to the smaller base 4, increase the area of the foam layer in the chamber 1 of the machine, thereby increasing the specific surface of the foam layer. Along with this betrayal

there is also a receiving surface of vacuum

foam receiver 7, in addition, the signal from the controller 18 is supplied to the control systems 20 and 21 of the electric motors 11 and 12. Using the device 10, the electric motor 11 lowers the vacuum foam receiver 7 by the amount of decrease in the height of the expander 4, and the electric motor 12 moves the gate 13 by extender height reduction

5 4, which compensates for the change in the height of the foam layer in the chamber 1 of the machine, caused by a change in the height of the expander 4.

If the flow rate of solid in the pulp supplied to the flotation decreases relative to a predetermined nominal value, then the signal from the sensor 14, corresponding to the change in flow rate of the solid, through the controller 18 is supplied to the drive device 19 and to the control systems 20 and 21

5 electric motors. The drive device 19 through the devices 6 and 9 will move the side walls 5 of the expander 4 and the side walls 8 of the vacuum foam receiver 7 in the direction of reducing the foam layer in the expander 4 and the receiving surface

foam receptacle 7. At the same time, the electric motor 11, with the help of the device 10, will raise the foam receptacle 7 to a height corresponding to the change in the height of the expander 4. The electric motor 12 will provide the gate 13 to be lifted to the same height. In this case, the surface of the foam layer in the chamber of the machine will decrease, i.e., the specific surface of the foam layer will correspond to the flow of solid in the pulp, and, in addition, the vacuum foam receiver 7 will completely block the surface of the foam layer in the expander 4, which will eliminate the loss of vacuum and will ensure complete removal of the foam product in the expander 4.

The proposed device allows for all changes in the solids content in the pulp entering the column flotation, to ensure a proportional change in the specific surface of the foam layer, while simultaneously changing the receiving surface of the vacuum foam receiver, its height above the foam layer, and also provides a simultaneous change in the height of the foam a layer in chamber 1 of the machine caused by a change in the specific surface of the foam layer. Therefore, with all changes in the flow rate of solid in the pulp entering the flotation, it is possible to stabilize the specific surface of the foam layer, to provide the required surface of the vacuum foam collector, as well as the corresponding height of the foam layer in the machine chamber. All this

creates favorable conditions for increasing the accuracy of controlling the flotation column process in a pneumatic machine.

To determine the quantitative indicators of increasing the accuracy of control of the flotation column in the developed device compared to the device of the main invention,

comparative studies in the enrichment of manganese ores. The studies performed showed that by improving the accuracy of controlling the flotation column process, the developed device provides an increase in the extraction of manganese in concentrate by 0.8%.

Claims (1)

SUMMARY OF THE INVENTION Column flotation control device, characterized in that, with In order to increase the accuracy of controlling the flotation process, it is equipped with a vacuum foam receiver, made in the form of a truncated pyramid facing the expander with a large base and installed with the possibility of vertical movement and changing the angle of inclination of the side walls, with an electric motor for moving the foam receiver with a control system. changes in the angle of inclination of the side walls of the vacuum foam receptacle are electrically connected with a regulator for changing the angle of inclination of the side walls of the expander and the motor control system. u / xfigotfu pnnyemou A zpnoshpts 01 .. SYSOS "1 4 g S-4 figure 1 8 -4