SU401426A1 - DEVICE FOR CLASSIFICATION OF BULK MATERIALS - Google Patents

Description

one

The invention relates to the field of screening of bulk materials, such as coal, on hydraulic screens and can be used in the building materials industry, in the coal and mining industries.

A device for classifying bulk materials is known, comprising a hydro screen with nozzles, a raw material weighing instrument and a water supply pipe with an adjustable valve.

The purpose of the invention is to increase the efficiency and automate the screening process.

The proposed device is equipped with a solid-to-liquid ratio control and an extreme effectiveness control. A solid-to-liquid ratio determination unit is connected to the input of the solid-to-liquid ratio regulator, electrically connected to the water flow meter and the raw material weighing device, and the ratio adjuster electrically connected to the unit for determining the sieve composition of the starting material. An adjustable valve actuator is connected to the output of the solid-to-liquid ratio controller, and a screening efficiency unit and an efficiency indicator, electrically connected to the block of determining the solid-to-liquid ratio, are connected to the input of the extreme efficiency controller. To the output of the extreme efficiency controller, a Bnbrator and an actuator for rotating the nozzles, electrically connected by feedback with the input of the solid-to-liquid ratio controller, are connected via an equilibrium station.

The block diagram of the described device shown in the drawing.

The device includes: a water supply pipe 1 with an adjustable valve 2 through which water is supplied to a hydro-screen 3 equipped with nozzles 4; solid-to-liquid ratio controller 5, the input of which is connected to unit 6 for determining the ratio of solid to liquid, where signals from the weight sensors 7 of the source material and the water flow meter 8 are supplied, and with the setting unit 9 ratios associated with unit 10 for determining the sieve composition of the source material . The output of the regulator 5 through the control station 11 is connected to the actuator 12 of the adjustable valve; To the input of the extreme efficiency controller 13, a screening efficiency determination unit 14 and an efficiency unit 15, electrically connected to the solid-to-liquid ratio determination unit, are included. The output of the extreme efficiency controller 13 through the control station 16 is connected to

a vibrator 17 and an actuator 18 for turning the nozzles, the actuator being feedback linked to the input of the solid-to-liquid ratio controller 5.

The device consists of two interconnected first automatic control systems - an automatic control system for the solid-to-liquid ratio and an automatic control system for screening efficiency using an extreme regulator.

The automatic control system of the solid-to-liquid ratio is an automatic control system with a correction for the final composition of the starting material. Signals from the source weight meter and the water flow meter are fed to the solid-to-liquid ratio determination unit. From the ratio block, a signal proportional to the current value of the ratio is applied to the convergence of the regulator 5, where it is compared with the setting signal 9, which is proportional to the target value from the parameter. If there is a mismatch signal, the controller 5 generates an adjustable, all-effect applied through the control station to the actuator 12, which controls the operation of the adjustable valve 2, closing or opening it until the current solid-to-liquid ratio is equal to the set value. The setpoint signal 9 is corrected by the unit 10 for determining the sieve composition of the starting material.

The operation of the automatic control system for screen efficiency is based on the use of the relationship between screen efficiency and the angle of inclination of water jets to the screening surface of the hydro screen. According to extremum data, this dependence has the form of a family of curves with one clearly pronounced extremum in the form of a maximum. The selection of the corresponding curve is determined by the ratio of solid to liquid.

The uniqueness of the extremum allows the extreme regulator to be used in the scheme to find the optimal mode. The signal from the screening efficiency determination unit enters the computing device of the extreme controller, where it is compared with the signal of the setter, which is corrected by the solid-to-liquid ratio determination unit, i.e., the working curve from the family of curves is determined. The stimulating device of the extreme controller analyzes the received value of the error signal and acts through the control station 16 on the nozzle rotation actuator.

in such a way that the efficiency of the screening of the hydrocooler will fluctuate around its maximum value. If for some reason, the effectiveness of the screening screen for a long time differs

from the maximum, the computing device of the extreme controller gives the command to the control station 16 to turn on the vibrator 17, with which the vibrations are applied in the direction perpendicular to

movement of classified material. In the device, it is possible to increase the efficiency of the screening of the hydrocircuit at the extreme positions of the actuator and the rotation of the nozzles through the reversing sensor to act on the regulator 5, correcting its operation.

Prevention Invention

A device for classifying bulk materials containing a hydro-screen with nozzles, a raw material weighing device and a water supply pipe with an adjustable valve, characterized in that, in order to increase efficiency and automate the screening process, it is equipped with a solid-to-liquid and an extreme efficiency regulator, wherein, a solid-to-liquid ratio determination unit is connected to the solid-to-liquid ratio regulator input, electrically connected to a water flow meter and a weight meter, and of the converging material, and the ratio adjuster, electrically connected with the unit for determining the sieve composition of the source material, the executive mechanism of the adjustable valve is connected to the output of the solid-to-liquid ratio regulator, and the control valve input is connected to the input of the extreme controller

efficiency included a screening efficiency determination unit and an efficiency master, electrically connected with the solid-to-liquid ratio determination unit, a vibrator and an actuator for rotating the nozzles connected electrically to the input of the regulator of the solid ratio to liquid.