SU701708A1 - System for automatic control of a grinding process in a closed-cycle mill having a throughput separator - Google Patents

Description

flow, and the inputs of the aerodynamic flow rate regulator are connected to the material flow sensor entering the separator and the aerodynamic flow rate sensor, and the output of the aerodynamic flow rate regulator is connected to the regulator changing the aerodynamic flow rate, in addition, the material flow sensor entering the separator is made in the form of an adder, units of statistical anticipation of the flow sensor of the initial charge and the flow sensor of the coarse separation product, and the outputs of the sensors are Yes, the initial charge and the flow rate of the coarse product of separation are connected to the corresponding inputs of the adder via statistical pre-emption links.

The block diagram of the system is shown in the drawing and contains: a metering device 1, a mill 2, a separator 3, a mill 4 loading regulator, a mill 5 loading level sensor, a mill 6 aerodynamic resistance sensor, an aero dynamic flow sensor 7, a dosing device regulator 8 , material flow sensor 9, aerodynamic flow rate regulator 1.0, regulating the organ for changing the flow rate of aerodynamic flow 11, source load flow sensor 12, flow sensor for coarse separation product returned to the mill Itsu 13, adder 14, statistical lead predilection 15 and 16.

The material through the metering device I enters the mill 2, from where it is transported by aerodynamic flow to the separator 3. In the separator, the finished product is separated, and the undersized material (coarse separation product) is returned to the mill. The inputs of the load controller of the mill 4 receive signals from the load level sensor of mill 5, the sensor of aerodynamic resistance of mill 6 and the flow sensor of aerodynamic flow 7. The output of load control 4 is connected to the regulator 8 of the metering device.

The aerodynamic flow sensor 7 and the flow sensor of the material entering the separator 9 are connected to the inputs of the controller 10, the flow rate of the aerodynamic flow 10, the output of which is connected to the regulating body II, which changes the flow rate of the aerodynamic flow. As a regulator that changes the flow rate of the aerodynamic flow, separator vanes with an adjustable angle of rotation, or an exhaust fan regulator can be used.

To account for the different rates of advancement of the initial charge and the coarse separation product along the mill, the outputs of the link 15 are statistically anticipated for the time of progress in the mill of the initial charge and the link 16 of statistical damage for the time of progress in the mill of the rough separation product, the inputs of which are connected to the input of the adder 14 respectively, with the output of the sensor1: a flow of the initial pressure and the output of the flow sensor of the coarse separation product.

The automatic adjustment system works as follows.

The signals of the loading level sensor 5 and the aerodynamic resistance sensor b are fed to the inputs of the load controller of the mill 4.

The mill loading controller 4 changes the material consumption to the mill 6 depending on the loading level and the aerodynamic mode of the mill and provides optimal conditions for the material to pass along the mill and transhertize it in the separator.

The signals of the aerodynamic flow sensor 7 and the flow sensor of the material entering the separator 9 are fed to the inputs of the aerodynamic flow rate regulator 10. Link 15 performs a statistical advance on advances in the original mill mill and link 16 performs a statistical advance on the progress time through the coarse mill product separation.

The flow regulator of the aerodynamic flow 10 stabilizes the degree of grinding of the finished product by a corresponding change in the flow rate of the aerodynamic flow. Let, for example, the consumption of the material entering the separator increase (decrease). In this case, to stabilize the degree of grinding, the regulator will increase (decrease) the flow of aerodynamic flow in accordance with the chosen law of regulation.

Thus, this automatic control system provides the maximum possible flow rate of the aerodynamic flow for a given degree of grinding of the finished product. Arising at the same time opportunities to increase the performance of the unit implements the loading controller of the mill 4.

Claims (2)

Invention Formula I. Automatic control system of the grinding process in a closed-cycle mill with a bushing separator including a mill loading controller to the input of which a mill loading level sensor, a mill's aerodynamic resistance sensor and an aerodynamic flow meter are connected, the output of the mill loading regulator is connected to the regulator of the metering unit distinguished with teM that, in order to stabilize the degree of grinding of the finished product and increase the productivity of the unit, the system is equipped with a flow sensor for the material entering the separator, an aerodynamic flow rate regulator and a regulator for changing the aerodynamic flow rate, and the inputs of the aerodynamic flow regulator are connected to the flow sensor of the material entering the separator and the aerodynamic flow rate sensor, and the output of the aerodynamic flow rate controller is connected En to the regulating body to change the aerodynamic flow rate. 2. The system according to claim 1, d.d. That the flow sensor of the material entering the separator is made up as an adder. units of statistical lead of the flow sensor of the initial charge and flow sensor of the coarse separation product, the outputs of the flow sensor of the initial charge and flow of the coarse separation product through the links of statistical lead are connected to the corresponding inputs of the adder. Sources of information taken into account in the examination 1. USSR author's certificate number 384547, cl. B 02 C 25/00. 1969. 2. USSR author's certificate Co 257280, cl. At 02. from 25/00, 1964.