SU1162489A1 - Device for controlling selective flotation - Google Patents

Abstract

A SELECTIVE FLOTATION CONTROL DEVICE, containing two coupled reagent consumption control loops, one of which is made in the form of pulp alkalinity sensors, and the two-input flow regulator and the copper vitriol dispenser, which is different in order to simplify the device, are different the control loop is made in the form of a concentration sensor, a flow controller and a xanthate dispenser in the liquid phase of the pulp, with the first outputs of the alkalinity pulp sensor and the xanthate concentration sensor in the liquid phase the pulps are connected to both inputs of the copper sulfate flow controller, the second outputs of the alkalinity sensor of the pulp and the xanthate concentration sensor are connected to the inputs of the regulator (LL of the xanthate consumption, the output of which is connected to the xanthate dispenser.

Description

This invention relates to process control for the flotation of polymetallic ores. A device for controlling copper sulfate in the process of cyanide lead-zinc flotation is known on the basis of monitoring the content of dissolved copper in the pulp, containing a copper ion concentration sensor, a regulator and a copper sulfate dosing unit ClJ. The known device allows one to automatically maintain the specified ratios of the total cyanide consumption in lead and zinc flotation and the consumption of copper sulphate in zinc flotation and provides the possibility of stabilizing the content of dissolved copper at a given level. However, it does not optimize the copper content and does not solve the problem of automatically controlling the optimal content of dissolved copper by changing the consumption of copper sulfate. In addition, it is not suitable for use in the no-cyanide technology to enrich lead-zinc ores. A selective flotation control device is also known, which contains two reagent flow control circuits, one of which is designed as a slurry alkalinity sensor and two-input flow rate controller and copper vitriol dispenser 23 connected. The known device regulates the content of dissolved copper in the slurry, taking into account the slurry alkalinity by changing the flow rate of copper sulfate, while maintaining a constant ratio of the total consumption of cyanide to the consumption of copper sulfate. However, it is difficult and unsuitable for use in the permanganate method of flotation of lead-zinc ores, since the replacement of cyanide and zinc sulfate with permanganate changes the ionic composition of the liquid phase of the pulp. The purpose of the invention is to simplify the apparatus. The goal is achieved in the control unit for selective flotation, which contains two associated control loops reagents, one of which is 92 in the form of a slurry alkalinity sensor and a two-input flow regulator and a copper sulfate metering unit, the other control loop is in the form of concentration sensor, flow controller and xanthate dispenser in the liquid phase of the pulp, then the first outputs of the alkalinity sensor of the pulp and the concentration sensor of xanthate in the liquid phase of the pulp are connected to inputs of regulator flow .mednogo sulfate torus second inputs sensor alkalinity bullets ". The sensor and xanthate concentration sensor are connected to the inputs of the xanthate consumption regulator, the output of which is connected to the xanthateate dispenser. The drawing shows the proposed device. The device contains a pulp alkalinity sensor 1, a functional converter 2, a two-input xanthate 3 consumption regulator 3, a copper sulphate consumption regulator 4, a xanthate concentration sensor 5 in the pulp liquid phase, a xanthate dispenser 6 and a copper kupo / dew dispenser 7. The device works as follows. The output signal of the alkalinity sensor 1 in the functional converter 2 is transformed in accordance with the inherent equation and is supplied to the input of the controllers 3 and 4 of the xanthate consumption and the copper vitriol as a task. At the same time, the input of these regulators is given the input signal of the xanthate concentration sensor 5, where it is compared with the reference. Since both regulators have a name. one and the same task, then the deviation of the adjustable signal from the pro, Dani they have the same thing. In case the signal from the concentration meter of the xanthate concentration from the specified value is exceeded, the controller 3 generates a control signal in the direction of decreasing the performance of the xanthate dispenser 6, and the controller of the copper sulfate consumption 4 generates a control signal in the direction of increasing the performance of the copper sulfate dispenser 7. In the case of a decrease in the signal of the xanthate concentrator 5 of a given value of the regulators 3 and 4, the reaction occurs in the opposite direction.

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The proposed system differs xanthate as with cyanide, so

the simplicity of the circuit solution, which makes it possible to exclude the whole set of datascent enrichment of lead-freeSOLTIC devices, which are significant ores, with the permanganate technology of the flute technology.

improves the reliability and accuracy of up-5 Use of the invention of poravleni and, can be used to reduce the consumption of copper copper for a more effective control-pig by 10% and increase the extraction of copper sulfate and: reduction by 1.0%.

Claims (1)

SELECTIVE FLOTATION CONTROL DEVICE containing two connected control circuits for pulp and xanthogen concentration sensor is connected to the inputs of the xanthogenate flow regulator, the output of which is connected to the reagent flow dispenser, one of which is xanthogenate. 1 1162489 2