SU457752A1 - A device for feeding alumina an aluminum electrolyzer - Google Patents

Description

one

The invention relates to equipment used in the production of aluminum by electrolysis.

A device for feeding alumina an aluminum electrolysis cell, comprising a gas collecting bell, is known.

The proposed device is characterized in that the gas collecting bell is equipped with a lifting mechanism; the lifting mechanism consists of a drive, articulated extensions and rocker arms, with the extension at one end connected to the gas collection bell, the other end to the rocker arm, and the rocker arm to the drive.

This ensures uniform loading of alumina into the electrolyzer along the entire perimeter of the anode.

The power supply of the electrolyzer is carried out by a vertically movable gas collecting bell, the bell being connected to burners for burning anode gases.

Such a device eliminates the need for electrolyte crust destruction when feeding the cell with alumina, reduces the loss of electricity and raw materials, increases the resistance of the side lining, improves the process and working conditions.

The drawing schematically shows the proposed device, the cut side of the electrolyzer.

The device has a gas collector 1, closed

along the perimeter of the anode 2 of the electrolyzer. The gas collector is made of individual cast iron sections of L-shaped section. The vertical inner wall of the gas collector is adjacent directly to the shell of the anode with its upper part, and the lower part, more thickened, adjoins the body of the anode. The outer inclined wall of the gas collector is in contact with the electrolyte crust 3 at a height above the surface of the electrolyte 4, which is sufficient to form an extension between the side lining of the bath and the lower edge of the gas collector and for transferring the anode shell. The gas collector is suspended on several hinge extensions 5, located at equal distances around the anode. The lower end of the stretch is pivotally connected to the gas collector, and the upper end is connected to the rocker arm 6, hinged on the post 7, which has a rigid attachment with the anode casing (anode casing). One end of the rocker arm is connected to the spreader, the other end is connected to the drive 8 (for example, a pneumatic cylinder), the rod of which performs a reciprocating movement, ensuring the raising and lowering of the gas collector or its sections on the beam. The number of suspensions on the electrolyzer is established depending on the weight of the gas collector and its length around the perimeter of the anode. The corner sections of the gas collector have openings in the form of pipes for the exit of gases to

which are installed burner 9 for burning anode gases. The burner is in the form of a nozzle with openings for air suction, which are placed on the expanding part of the nozzle, and a movable pipe 10 is installed with a certain clearance above the tapering neck of the nozzle. The pipe connects the burner to the electrolyzer suction system 11, which creates fan. The pipe serves to tighten the air through the holes of the nozzle and through the gap between the nozzle and the pipe. When lifting the gas collector, the gap between the nozzle and the pipe 10 is eliminated, the pipe rests on the nozzle and is lifted by a certain amount along with the gas collector (in the drawing the dotted line shows the lower edge of the outer wall of the gas collector, the rocker arm and the upper end of the pipe 10 with the raised gas collector. When used as a gas collector. a pneumatic actuator lifting drive (see drawing); compressed air is used to supply it, which is supplied through an air distributor 12 interlocked with time relay 13.

The bath is fed with alumina as follows.

Alumina 14, previously poured onto the surface of the electrolyte peel by the side of the bath and the inclined wall of the gas collector, is most heated by the side closest to it. When the gas collector rises, a gap is formed between it and the crust, through which alumina flows under the gas collector bell, located above the crust between its inclined wall and the line forming the angle of repose of alumina (see drawing). In this case, a certain portion of alumina enters the surface of the electrolyte, bounded in the plane of the drawing by a geometric figure — a triangle. The amount of alumina supplied to the bath is determined by the area of the triangle cross section, the length of the movable part of the gas collector and the period of actuation of its lifting drive interlocked with the time relay.

In the lowered position, the gas collector is installed in the scraper between the crust and the shell of the anode. The seal between the gas collector and the anode is achieved by closely fitting the smooth surface of the internal wall of the gas collector to the anode sidewall. In the case of "bulging of the anode shell, the gas collector can move somewhat from the anode due to the articulated suspension. In the case of an electric drive, the process of casting the electrolyzer with alumina is also automated by blocking it with a time relay.

Alumina is fed to the electrolyte crust by known methods (for example, a transport bunker, a device to a bridge crane, etc.) at certain time intervals.

The device allows automatic feeding of alumina to the electrolyzer to eliminate the anode effect, for example, by means of electromagnetic devices activated by increasing the voltage on the bath.

When using a mobile gas collector on other types of electrolyzers (electrolyzers to side current leads and electrolyzers with preburned anodes), other variants of the gas collector suspension are possible, and different mechanisms are used as a drive: lever, screw, etc.

Subject invention

1. A device for feeding alumina an aluminum electrolysis cell, including a gas collecting bell installed along the perimeter of the anode, characterized in that, in order to uniformly load alumina into the electrolyzer along the entire perimeter of the anode, the gas collecting bell is equipped with a lifting mechanism.

2. A device of claim 1, characterized in that the lifting mechanism consists of a drive, hinged extension and rocker arm, with the extension at one end connected to the gas collecting bell, the other end to the rocker, and the rocker to the drive.

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