SU1600845A1 - Apparatus for automatic regulation of charging rate of filtering centrifuge of periodic action - Google Patents

Abstract

The invention relates to the separation of suspensions in centrifuges used in the chemical, food and medical industries for separating suspensions in a centrifugal field into liquid and solid phases. The purpose of the invention is to increase the centrifuge capacity and improve the quality of the centrifuged product. The goal is achieved by the fact that a batch filtering centrifuge is loaded using a device containing a speed sensor connected to one of the inputs of the process control unit, one of the outputs of which is connected to the valve of closing the filling gate and connected in series with a centrifuge electric motor a centrifugal motor, a memory element, an adder, an integrator, wherein the output of the current sensor of the centrifuge motor is connected to the second input of the adder, Exit integrator - a second input of control unit work cycle, and control inputs of the memory element, and an integrator coupled to the second output of the control unit technological cycle. This device uses the value proportional to the square of the mass of the suspension in the centrifuge drum over the loading time, obtained by integrating the current reduction of the centrifuge motor during the loading time relative to the motor current at the initial loading time, as a value characterizing the degree of centrifuge drum loading. 1 il.

Description

The invention relates to the field of separation of a suspension and can be used in centrifuges used in the chemical, food and medical industries to separate the suspensions into liquid and solid phases in a centrifugal field.

The purpose of the invention is to increase the centrifugal performance and the improved qualities of the centrifuged product.

The drawing is a diagram of the proposed device.

The drum 1 of the centrifuge is connected to the electric motor 2, which is powered by the converter 3. The converter 3 stops maintaining a constant set loading speed. The engine 2 or the centrifuge drum 1 is connected to a speed sensor 9, which measures the speed of the centrifuge drum. The motor 2 is connected to a current sensor 4, the output of which is connected to the memory element 5, which ensures that the motor current is memorized at the moment of the start of loading. An adder 6, one input of which is connected to the output of the memory element 5, and the other, the input to the output of current sensor 4, provides for the reduction of the current of the centrifuge motor during loading. The output of the adder 6 is connected to the input of the integrator 7, which provides a value proportional to the square of the mass of the suspension in the centrifuge drum during loading. The process cycle control unit 8 contains functional elements ensuring the technological operations of the entire centrifugation process cycle. At the level of functional elements, the centrifuge drum is loaded, the output of the integrator 7 is connected to the comparator (reference element) of block 8, another input of this comparator is connected to the device for setting the centrifuge loading level. The output of this comparator is connected to a technological automation device, one of the outputs of which is connected to an amplifier (for example, an electromagnetic relay), and the output of the amplifier is connected to an electromagnet of the valve 9 to close the gate. The other output of this amplifier is connected to the control inputs of the memory element 5 and the integrator 7, it resets the integrator 7 and the memory element 5 at the end of the load and starts them at the initial moment of loading. Output-sensor 10 speeds connect-. It is not connected with the input of the technological automation device of the unit 8, the output of which is connected to the same amplifier that controls the electromagnet of the valve 9 to close the gate, which ensures its opening when the engine 2 reaches the specified loading speed.

The device works as follows.

Using converter 3, motor 2 accelerates to load turns. When the engine reaches 2 engine speeds, the valve opens.

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Claims (1)

9, the centrifuge and slurry filling slides enter the drum. At the same time, the signal from the output of control unit 8 is fed to the control inputs of memory element 5 and integrator 7 and triggers them to work. The signal from current sensor 4 is input to memory element 5, the output of which stores the current value of the centrifuge motor at the moment the load starts . The incoming signals from the output of the memory element 5 and the current sensor 4 at the inputs of the adder 6 produce at its output a signal of the current reduction value of the centrifuge motor during loading. From the output of the adder 6, the signal is fed to the input of the integrator 7, the output of which is a value proportional to the square of the mass of the suspension in the centrifuge drum during loading. From the output of the integrator 7, the signal enters the input of the control unit 8 and, when it reaches a predetermined level, the control unit B turns off the valve 9 to close the filling gate and the gate closes. The drive is engaged in acceleration. At the end of the loading, the cycle control unit 8 resets the integrator 7 and the memory element 5. Inventive Formula A device for automatically controlling the loading rate of a batch filtering centrifuge, comprising a converter connected in series, a motor, a centrifuge drum speed sensor, a process control unit, a filling gate valve, as well as an adder and integrator, in order to increase price performance g -1- Ifugui and improve the quality of the centrifuged product, it is additionally equipped with a current sensor. Centrifuge motor and memory element, The centrifugal motor current sensor is connected to the first inputs of the memory element and the α-mator, the output of the memory element is connected to the second input of the adder, the output of which is connected to the first integrator input, the integrator output is connected to the control unit of the technological Cycle whose output is connected to the second (1 dam of the memory element and in. grat (fa.