SU461973A1 - Device for automatically feeding aluminum electrolyzers with alumina - Google Patents

Description

(54) DEVICE FOR AUTOMATIC POWERING OF ALUMINUM ELECTROLISEURS BY ALUMINUM EARTH

one

The semi-continuous supply of alumina to the electrolyte is known by means of an aerotational metering device and a punching rod mechanism. At the same time, the supply of alumina to the electrolyte crust is carried out with the help of channels in large portions once every 30-60 minutes.

The proposed device is characterized in that it is provided with volumetric-vacuum dispensers in communication with the pipe for feeding alumina to the electrolyzer. The pipe is connected to the pneumatic cylinder, on the pore of which the percussion instrument is freely attached to pierce the electrolyte crust. Volumetric vacuum dispensers and pneumatic cylinder are automatically interlocked with each other by means of an electro-pneumatic valve included in the automatic control circuit.

Such an embodiment of the device provides a high degree of alumina dosage in 2-6 minutes in small portions.

The drawing shows the proposed device.

It works as follows.

After receiving a signal from the control system 1, the electro-pneumatic valve 2 supplies compressed air simultaneously to the upper cavity

cylinder 3 and into the ejector 4 connected to the upper chamber of the dispenser 5. The piston with the rod goes down and the striker 6 pushes the alumina through the hole in the crust into the electrolyte. Passing through the ejector, compressed air creates a vacuum in the upper chamber of the dispenser (0.5–0.7 atm), under the action of which the flexible filtering diaphragm of the dispenser bends upward and lifts the valve blocking the discharge opening of the dispenser. Through the filter diaphragm, the vacuum spreads into the lower, working chamber of the dispenser, as a result of which alumina begins to flow into it through the suction pipe 7.

by air. The air is pumped out by the ejector through the diaphragm, and the alumina fills the dispenser. Then, on a new command from the automation system, the electropneumatic valve 2 switches the supply of compressed air into the lower cavity of the cylinder, and the piston joint returns to its original position. After the air supply to the ejector stops, the vacuum in the upper chamber of the metering unit drops, the diaphragm sags downwards, the valve opens the lower metering port and the alumina flows by gravity through the pipe to the crust under the syringe. After 2-6 minutes, the cycle is repeated. The drawing shows the combined control of the operation of the dispenser and the penetrating rod device using one electropneumatic valve 2. However, the control can be separate. In this case, the control scheme setting is more reliable and flexible. To change the feed rate of alumina to this electrolyzer, the electro-pneumatic valve 2 with the help of a toggle switch located on the shield 8 is connected to one or another line of the pulse frequency. There are several such lines (four or five), each of which corresponds to a certain frequency of operation of the metering and penetrating mechanisms and, accordingly, the rate of alumina supply to the electrolyte. If there is an alumina concentration sensor in the electrolyte, the response frequency of the metering and piercing mechanisms will automatically change according to its signal. In the absence of such a sensor, the concentration of alumina in the electrolyte of each electrolytic cell can be made according to periodic analyzes of samples taken from 10 15 20 25 electrolyte or the frequency of anode effects on this electrolytic cell. Object of the Invention 1. A device for automatically feeding aluminum electrolyzers with alumina, consisting of metering and penetrating mechanisms installed permanently on an electrolyzer each, characterized in that, in order to increase the reliability of alumina dosing, it is equipped with volumetric vacuum dosing devices communicating with the alumina supply pipe into the electrolyzer connected to the pneumatic cylinder, on the pore of which the percussion tool is freely attached for punching the electrolyte crust. 2. A device according to claim I, characterized in that, in order to ensure accurate dosing of alumina, volume-vacuum dispensers and a pneumatic cylinder are automatically interlocked with each other by means of an electropneumatic valve included in the automatic control circuit.

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