SU691505A1 - Anodic electrolyzer device for producing aluminum - Google Patents

Description

The invention relates to the field of electrolytic production of aluminum and can be used in the construction of the anode device in the manufacture of shells of self-firing anodes. An anode electrolysis device for producing aluminum with a continuous self-firing anode is known, including a metal structure, an anode casing and an aluminum shell. An aluminum shell consisting of individual sheets adjoins the inner stacks of the anode casing and isolates them from the anode mass. In order to build up the shell of the anode, separate aluminum sheets are inserted in such a way that they come in from the side one after the other, and their lower edge should enter between the already existing aluminum sheet and the pasty (liquid) anode mass, and the upper edge should freely lean against the inner part anode casing. In addition, an additional, inner, narrower frame is provided to hold the aluminum sheets on the anode frame. The alumina shell should not be higher than the anode casing. After installing aluminum sheets. The anode frame is closed with a cover 1. A disadvantage of the known technical solution lies in the fact that the operation of increasing the shell requires a large amount of labor under harmful working conditions. The presence of many joints between the sheets increases the liquid anode masses to the anode casing, which causes the shell to stick to the casing. The purpose of this invention is to accelerate the execution of the operation of increasing the shell 10 and improving working conditions. The goal is achieved by the fact that the anode device is provided with a rigid mandrel mounted on top of the perimeter of the inner part of the anode case with a gap from it and fixed fixedly on the metal of the electrolyzer construction. Gap between

. the mandrel and the anode casing is 2.5-3 thicknesses of the shell sheet.

FIG. 1 - shows a general view of the device; in fig. 2 - node I of the articulation; in fig. 3 shows section A-A in FIG. one.

The device consists of an anode casing 1, made in one piece with the anode frame 2. Mandrel 3 is a rigid hollow rectangular parallelepiped, corresponding in section to the shape of the opening of the anode casing 1, having in the lower and upper bases openings for loading the anode one. mass and; telescopically connected (with a corresponding gap) with the anode casing. The mandrel is fixedly fixed on the metalwork by 4 links 5.

On the mandrel there is a tsarg 6, which is riveted by a 7th overlap seam with a shell 8.

The anode 9 is enclosed in the shell 8. The current-carrying plugs 10 are baked in the anode.

The device works as follows.

When it is time to build up the shell 8 of the anode 9, a sheet of rolled aluminum is tightly applied to the side (vertical) outer walls of the mandrel 3 and made out of the rim 6 to the shell 8 protruding from the gap between the top of the anode casing 1 and the mandrel 3 As the anode burns, it is lowered along with the anode casing.

The anode carries along a closed shell, sticking it from the mandrel. When the anode frame is tapped, the anode holds the shell

054

and the anode casing moves upward, slipping along the side of the shell. After several spraying of the anode frame, and consequently, the anode casing, when the edge of the shell protrudes 200-250 mm above the upper edge of the anode casing, the shell expansion operation is performed again.

The device will speed up the execution of the build-up of the pump by 1.2 times. Basically, the effect is aimed at improving the sanitary and hygienic working conditions.

Claims (2)

1. An anode electrolysis device for producing aluminum with a continuous self-firing anode, including a metal structure, an anode casing and an aluminum shell, characterized in that in order to accelerate the operation of building up the aluminum shell and to improve working conditions, it is equipped with a rigid mandrel mounted on top of the perimeter of the inner part of the anode casing with a gap from it and fixed motionless on the metal structure of the electrolyzer. 2. The device according to claim 1, wherein the gap between the mandrel and the anode case is 2.5 to 3 times the thickness of the shell sheet. Sources of information taken into account in the examination 1. Patent of Germany N 1145282, cl. 21 p 20/05, 1956. A