SU1326335A1 - System for automatic control of consumption ratio of solid and liquid phases of flows inmill charging - Google Patents

Abstract

This invention relates to the automation of grinding processes in a drum mill operating in a loop with a classifier. It can be applied at the processing plants of ferrous and non-ferrous metallurgy, the industry of building materials and other industries, where there are similar processes. Allows to increase the accuracy of automatic adjustment. Contains a drum mill 1, spiral classifier 2, meters 3, 4 and 5 of water consumption, circulating sands and initial ore, adders 6 and 7, blocks 8 and 9 for determining the ratio of costs and moisture content of circulating sands, regulator 10, converter 11 consumption, executive the mechanism 12 of the control valve, the block 13 sets the controller, the gearbox 14 of the spiral driving motor. 1 il. in (L

Description

The invention relates to the automation of the processes of grinding materials in a drum mill, working in a cycle with a classifying apparatus, and can be used in the processing plants of ferrous and nonferrous metallurgy, the building materials industry and other industries, where there are similar processes.

The aim of the invention is to improve the accuracy of the automatic adjustment.

The drawing shows a block diagram of the system of automatic control of the ratio of the flow rates of the solid and liquid phases of the flows in the loading of the mill, operating in a cycle with a spiral classifier and including water flows, circulating sands and initial ore at input.

The system contains a drum mill 1, a spiral classifier 2, meters of 3, 4 and 5 water consumption of circulating sands and initial ore, adders 6 and 7, blocks 8 and 9 for determining the ratio of costs and moisture content of circulating sands, regulator 10. flow converter 11 , the actuator 12 of the control valve, the block 13 sets the controller, the gearbox 14 of the driving motor of the spirals.

The system works as follows, and. in a way.

The density value of the pulp in the mill drum is preliminarily determined, which ensures the maximum performance according to a given size class of the material to be ground, and the corresponding correlation of the solid and liquid phases of the feed streams (Ass. J), which is set in the task block 13. In controller 10, this task is matched with the input signal of controller 10, coming from the output of block 8 for determining the ratio of the flow rates of the solid and liquid phases of the input streams.

Two signals are received at the two inputs of the ratio determining unit 8: from the first adder 6, the summing signals from meters 5 and 4, ore consumption and circulating sands, which characterize the flow of the solid phase of the input streams, and from the second adder, the summing signals from the meter 3, water flow and block 9 on determining the moisture content characterizing the flow of the liquid phase. .

The filter from the outlet of the sand flow meter 4 is also connected to the input of the unit 9, which determines the water content that flows together with the circulating sands, taking into account their humidity. Humidity of the circulating sands is in a certain dependence on their consumption and can be taken into account but a certain dependence B f (S), where S is the flow rate of the circulating nes, which is the maximum for a specific end of time.

The structure of the classifier and its working conditions. It was experimentally determined that in normal conditions of the grinding cycle, moisture can be taken into account using a constant coefficient determined from the average density of the circulating sands when they are dropped into the sandgun.

Thus, all the required input flow components in the load of the mill 1 operating in the cycle with the classifier 2 are taken into account, which makes it possible to improve the control accuracy of the specified ratio.

When the value of the ratio of the flow rates of the solid and liquid phases deviates from the setpoint (Ass. J), the regulator 10 generates an appropriate control action, which is fed to the actuator 12 of the control valve through the flow converter 11.

The operation of the system for the drum mill of the second and subsequent grinding stages is carried out in essentially the same way.

Thus, an increase in the accuracy of controlling the cost ratio for the second and subsequent drum bath mills is also achieved by taking into account all the required input flow rates in the loading of mill 1 operating in a loop with classifier 2, including through the direct connection between the output of the recirculating sand meter and the first input of the first expense accumulator, and, as a result, an increase in the accuracy of determining the s.of ratio of the flow rates of the solid and liquid phases of the flows.

A circulating sands flow meter measures the solids performance of the circulating sands and ensures their continuous monitoring.

The system allows you to maintain a specified value of the ratio of the solid and liquid phases of the input streams when changing any component. In this case, the density is stabilized by the pulp in the drum and at the discharge of the mill, the transient processes are reduced, and the productivity of the mill increases according to a given size class. 5 Testing the system under production conditions showed that it provides stabilization of the pulp density at the mill discharge with a standard deviation of +% relative to a given value.

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Claims (1)

Invention Formula A system for automatically controlling the ratio of the flow rates of the solid and liquid phases in the mill loading, operating in a cycle with a classifier, including flow meters of the original ore and circulating sands, a regulator with a sequence connected by a flow converter and an additional mechanism of the control valve, characterized in that improving the accuracy of automatic regulation, it is equipped with a water flow meter, a unit for determining the moisture content of circulating sands, first and foremost One adders, a unit for determining the ratio of costs, a block for setting a controller, the flow meters of the original ore and circulating sands are also connected to the input of the moisture content measuring unit of the cycling sands, the output of which is connected to the first input of the second adder, the second input is connected to the water flow meter , the outputs of the first and second adders are connected to the corresponding inputs of the flow ratio determination unit, the output of which is connected to the first input of the controller, the second input The cooling sands are connected to the inputs 10 of which are connected to the unit for setting the re-first adder, the flow meter to the circulator. The cooling sands are also connected to the input of the moisture content determining unit of the circulating sands, the output of which is connected to the first input of the second adder, the second input of which is connected to the water flow meter, the outputs of the first and second adders are connected to the corresponding inputs of the flow ratio determination unit, the output of which connected to the first input of the controller, the second input  which is connected to the task control unit torus.