SU518234A1 - Device for automatic control of a centrifugal separator of continuous cyclic action - Google Patents

Description

(54) DEVICE FOR AUTOMATIC CONTROL

CENTRIFUGAL SEPARATOR OF CONTINUOUS-CYCLIC ACTION

liquid locking device, a fluid mechanism 7 on the supply line of buffer water; 1 for unloading the siphon ga.pjipa6ana separator, separator 8, pressure sensor 9, HCuojiWHTenbiiboi mechanism 10; fugue interface, pressure regulator 11, concentration sensor 12, suspension suspension , a computing unit 13, an inter-slurry liquid discharge regulator 14, an unloading regulator 15, a flushing controller of the separator 16, an automatic switch 17 for separator separating and washing cycles, a threshold alarm 18 and an integrator 19.

The device works as follows. At the beginning of the separation cycle, regulator 3 issues a signal for opening actuators, 4 and 10, the degree of opening of which is provided by flow regulator 2 and pressure regulator 11. At the same time, the control loop, consisting of pressure sensor 9, regulator 11 and actuator mechanism 10, provides stabilization of pressure in the tailings of the centrate. The duration of the separation cycle is set by the regulator 3 and can be corrected by a signal that adjusts to the regulator 3 from the computing unit 13 connected to the sensor of the condenserrady 12 and the sensor of the flow of the suspension 1

At the end of the separation cycle, the controller 3 generates a signal to close the actuators 4 and 10, as well as to the fag 14 of the inter-melting fluid, which then acts on the actuator 6 on the buffer water supply lines. When the time has passed for the slurry tanker to be filled with a liquid tank, regulator 1 closes actuator 6 and issues a signal to regulator 15 for discharging separated sludge, which opens actuator 7 for supplying buffer water to the separator rotor for a time that ensures full sediment discharge. After closing the actuator 7, the controller 15 outputs a signal to the separator washing regulator 16 and the automatic switch for 17 separator cycles and washing of the separator. Through switch 17, the signal passes to the computing unit to reset the previous correction signal and to turn on the controller 3, which opens the actuators 4 and 10, and the sequence of operation of the separator is repeated.

The regulator 16 for washing the separator is turned off, provided that both signals from the regulators 15 of the sludge discharge and the automatic one are simultaneously simulated. whom the switch is 17, while the signal is transmitted. A switch 17 is formed in the integrator where the integration of the analog signal from the helix block 13 is realized.

A threshold signal; a gizator 18, connected via an automatic switch 17 with a regulator 16, converts the analog signal t of integrator 19 into a discrete one.

When turned on, the flush control 16 issues a signal to open the executive

HHj№i S iLDH: g,) game f j4Mi, iiii) jii and ii-ii, ij abjit Iinchngelyil about MJ pei y.) Pressure 11, Regulator for 6 msgst of the separator (depending on appropriate setting). After the end of each wash nickel, the controller 16 closes the actuators 5 and 10 and issues a signal to the controller 14, which performs the operation of draining the inter-tray flush water. Then the regulator 14 turns on the regulator 15 to discharge the wash sludge. At the end of the last flushing cycle, the controller 16 issues a signal to the integrator 19, which returns it to its outgoing state. In this case, the slurry regulator 16 is turned off, and the regulator 15 switches on the regulator 3 through the automatic switch 17, and the suspension separation cycle is repeated.

Claims (2)

1. A device for automatic control of a continuous cyclic dendrobe separator, including flow sensors and suspension concentrations, a pressure sensor installed on the centrifugal discharge line, a suspension flow regulator and actuators installed on the suspension supply line, withdrawal of the centrate, supplying the washing liquid, inter-tray fluid drainage and sediment discharge, characterized in that, in order to improve the quality of sediment and reduce its loss, it is equipped with series-connected regulators a slurry feed regulator, an inter-scaffold discharge regulator, a sediment discharge regulator and a wash liquid supply regulator, each of which is associated with a corresponding actuator, and is also equipped with a pressure regulator and a computing unit connected to the slurry regulator and sensors of concentration and flow of the suspension, while the suspension supply controller is connected to the suspension flow controller and pressure regulator. 2. The device according to p. 1.0 tl and h and th it with the fact that it is equipped with an automatic cycle switch, the input of which is connected to the sludge discharge regulator, and the output to the industrial liquid supply regulator the suspension and the compression unit, as well as an integrator connected via a threshold alarm device with an automatic cycle switch, a regulator of the supply of industrial fluids and a computational unit. Sources of information taken into account during the examination: 1. I. V. Paveldelenny liquids on centrifugal aniiafJiiTax, M., 1968 with I) (CL. Suspension --- Snug Fugot