SU1695990A1 - Controlling device for process of column flotation - Google Patents

Abstract

This invention relates to the control of flotation processes in column pneumatic flotation machines. The purpose of the invention is to improve the control accuracy of the control flotation process (CF) in a multi-chamber chamber of a column machine, including main flotation and a CF with airlift transportation of intermediate products, by stabilizing the slurry level at the CF by changing the performance of the airlift device (AV4) contains the camera of the machine, divided by a vertical partition into two isolated compartments, each of which contains an AU Each AU consists of intake and discharge devices interconnected by an elastic corrugation with a vertical connection. Air is transported through the perforated inlet through the perforated branch pipe from the back chamber chamber of the upper compartment to the CF in the lower compartment. When the flow rate of the solid reagent fed to the flotation changes, the level of the pulp changes to CF the change is monitored by a pulp level sensor, the signal from which is fed to the input of the regulator for changing the height of the discharge device. At the same time, the signal from the sensor installed at the KF inlet, is fed to the inlet of the air flow regulator entering the AU. 1 silt

Description

The invention relates to the field of mineral processing by the flotation method and, in particular, to automation devices for the flotation process in pneumatic flotation machines of the column type.

The purpose of the invention is to improve the control accuracy of the control flotation process in a multi-chamber chamber of a pneumatic column machine, including main and control flotation with airlift transportation of intermediate products, by stabilizing the level of slurry on the control flotation by changing the performance of the airlift device.

The drawing shows the proposed device.

The device comprises a chamber of a column machine 1, divided by a vertical partition into insulated compartments 2 and 3, a loading device 4 for feeding the original pulp into the main flotation, performed in the upper part of the insulated compartment 2, device 5 unloading the chamber product located in the lower part of the insulated compartment 3 as well as device

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b for unloading frothy product, installed in the upper part of compartments 2 and 3. In the lower part of compartments 2 and 3 there are located aerators 7, as well as sand chambers 8, connected to the compartments by means of windows 9 and made under aerators 7. In each insulated compartment of the chamber of the machine 1, airlift devices are installed, each of which has an intake 10 and a loading device 11, combined with an elastic corrugated pipe 12. The intake devices 10 are located in sand chambers 8 main and control flo and include perforated air inlet pipe 13, rigidly connected to them and made with a possible vertical movement. The unloading device 11 of each airlift device is made in the form of a pipe in a pipe with the possibility of its adjustment along the height of the airlift device. A solid 14 flow meter is installed at the output of the loading device 4, the pi 1st includes the pulp flow meter 15, the pulp density 16 and the multiplying device 17, at the input of which electrical signals are fed from the inputs of the flow meters 15 and the density meter 16, and the output is connected to the input a reagent consumption regulator 18 that controls the operation of the actuator 19. The actuator 19 for modifying the consumption of reagents supplied to the main flotation controls the operation of the valve installed on the tube of their supply to the chamber column mas- ter. 1. In the insulated compartment 3 there is a pulp level float sensor 20, which is connected with the input of the regulator 2 for changing the height of the discharge device 11 of the airlift device that controls the operation of the actuator 22 for changing the height of the discharge device 11. Sensor output A 20 level slurry in the control flotation is also connected to the input of the regulator 23 of the flow rate of air supplied to the airlift device, and the control of the operation of the actuator 24 to control the flow rate of the feed to the airlift. air device.

The device works as follows.

The original pulp, pretreated with reagents, enters the chamber of the mask 1 through the loading device 4. The lightly floated mineral particles of the pulp are fixed on air bubbles rising from the aerators 7 and discharged through the device 6 for unloading

The froth product located in the upper part of the insulated compartment 2. The non-pledged particle is lowered into the sand chamber 8 of the compartment 2, where it is eroded5 with the air stream coming from the perforated air inlet 13, is sucked into the intake device 10 and through the discharge device 11 enters the isolated compartment 3. The hard-to-floatable mineral particles, moving countercurrently with air bubbles rising from the aerators 7, are fixed on these bubbles and carried to the froth product through 6 dl

15 unloading foam product. The waste rock is removed from the chamber of the machine 1 through the unloading device 5 of the chamber product using an air lift device. When moving the unloading device

20 11 in height of the airlift device of each of the compartments 2 and 3, the elastic corrugated nozzle 12 is deformed, which is necessary to prevent the loading device from moving

25 10 according to the height of the sand chamber 8 compartments 2 and 3 chambers of the machine 1.

When carrying out the flotation process in the chamber of the pneumatic column machine

The consumption of solid fed into the insulated compartment 2 is measured by a flow meter.

solid 14 by multiplying by multiplying the device 17 signals from the outputs of the flow meter 15 pulp and densitometer 16

35 pulp. The electrical signal from the output of the solid flow meter 14 is fed to the input of the regulator 18 of the consumption of reagents that controls the operation of the actuator 19 to change the flow rate directly

40 is proportional to the size of the signal coming from the solid flow meter. 14. The actuator 19 for changing the consumption of reagents controls the operation of the valve installed on the reagent supply nozzle.

45 n, § flotation. When you change the flow rate: dogo. supplied to the process, a change in the level of the pulp in the control flotation occurs, which is monitored by a float sensor 20 of the level of the pulp. An electrical signal from the output of the float level sensor 20 of the pulp is fed to the input of the regulator 21, which controls the operation of the actuator 22 for adjusting the height of the discharge device

55 11, With this re razochnoe adaptation

I1 shifts along the height of the aero-lift device, changing the level of pulp feed to the control flotation, which leads to a stabilization of the pulp level on the control flotation. At the same time, to prevent the supply of pulp to the control flotation under the foam layer or onto it from a certain height, which can lead to an imbalance of the foam layer, it is necessary to correct the performance of the airlift device. This is done by controlling the flow rate of air supplied to the perforated nipple 13. To do this, an electrical signal from the output of the level sensor 20 is applied to the inlet of the regulator 23 of the air supplied to the airlift device, and controlling the operation of the air flow rate control actuator 24, entering the airlift device. The actuator 24 controls the operation of the valve installed on the perforated air inlet 13 of the airlift device.

Thus, in the chamber of a pneumatic column of a multi-capacitance machine, including main and control flotation with airlift transportation of middling products, by stabilizing the level of pulp in the control flotation, by changing the performance of the aero-lift device, the control process of the control flotation is increased, which allows increasing the recovery and improving the quality of the obtained flotation concentrate.

Claims (1)

Invention Formula A device for controlling the flotation column process, including a solid flow meter installed at the inlet of the column machine, a flow controller for the reactants supplied to the flotation, and actuators, characterized in that; In order to improve the control accuracy of the control flotation process in the multi-chamber chamber of a pneumatic column machine, including main and control flotation with airlift transportation of middling products, by stabilizing the pulp level in the control flotation by varying the performance of the aero-lift device, it switches the pulp level sensor on the control flotation regulator change the height of the discharge device airlift device and air flow regulator supplied to the airlift The device, while the output of the pulp level sensor in the control flotation is connected with the input of the height-change regulator of the discharge device of the airlift device and with the input of the air flow regulator supplied to the aero-lift device connected to the corresponding actuators. Nutrition