SU403425A1 - DEVICE FOR AUTOMATIC CONTROL OF FLOWS OF XANTOGENATE - Google Patents

Description

The invention relates to flotation concentration of minerals.

Devices are known for automatically controlling the xanthate consumption, the ore flowmeter entering the mill, the xanthate dispensers in the mill and in the flotation process, analog computing units, the xanthate concentrate meter in the pulp liquid phase, the pulp flow meter, the control unit and the regulator. These devices do not allow to optimize the process to a sufficient degree, since they do not take into account the complex of input parameters, on which the specific consumption of the reagent depends.

The described device is characterized in that the outputs of the xanthate dispenser in the mill and the ore flowmeter are connected to the input of the first analog computing unit, the output of which, together with the output of the xanthogenate concentration meter in the slurry liquid phase, is connected to the input of the second analog computing unit which output together with the output of the flowmeter is solid in the slurry connected to the input of the control unit, the output of which through the regulator is connected with the input of the xanthate dispenser in the flotation process. This makes it possible to take into account the absorbing properties of the pulp and to carry out an optimal dosage of xanthate.

The drawing shows a block diagram of the described device.

The device consists of a secondary device 1, recording the ore consumption in the mill, the xanthate dispenser 2 in the mill, analog computing units 3 and 4, the xanthate concentrator of the liquid phase of the pulp 5, the control unit 6, the flow meter 7 solid in the pulp, the regulator 8 and the dispenser 9

Xanthate in the flotation process.

The device for automatic control of xanthate consumption operates as follows. Signals from the secondary device 1 flow

ores and xanthate dispenser 2 into the mill are fed to the ground of the first analog computing unit 3, whose output signal is equal to the ratio of input signals and is proportional to the specific xanthate consumption to the mill (/x.- This signal, together with the xanthate concentrator 5 signal, is proportional to the value of Sk., is received at the input of the second analog computing unit

4, the output of which is also equal to the ratio of the input, i.e., is proportional to the ratio - (absorption modulus). In his

The "/ KContinue" received signal along with the signal from the flowmeter 7 solid in the pulp enters the input of the control unit 6, in which they are multiplied according to the algorithm, and the resulting power, proportional to the specific consumption of the reagent, is fed to the input of the regulator 8. In accordance with the BIP with this signal, the controller changes the metering capacity until the feedback signal from the metering unit becomes equal to the input signal.

Subject and d on and e and

A device for automatic control of xanthate consumption, consisting of ore flow meter entering the mill, xanthate dispensers in the mill and in the flotation process, analog computing

blocks, xaptohepate concentration meter in the liquid phase of the pulp, solid flow meter in the pulp, control unit and regulator, characterized in that, in order to optimally control the xanthate consumption, the output of the keanthate dispenser to the mill and the ore flow meter are connected to the input of the first analog compute unit in the mill which, together with the output of the concentrator

The xanthate in the liquid phase of the pulp is connected to the input of the second analog computing unit, the output of which, together with the output of the solid flow meter in the pulp, is connected to the input of the control unit, the output

which through the regulator is connected with the input of the keanthate dispenser during the flotation process.

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