RU2191224C1 - Cathode device of aluminum cell - Google Patents

Abstract

FIELD: non-ferrous metallurgy, namely constructions of cells for producing aluminum. SUBSTANCE: cathode device includes metallic rectangular casing, lateral lining made of blocks mounted on edge, carbon bottom blocks with electrically conductive rods, interblock joints, refractory and heat insulation layers. Blocks of lateral lining are formed of silicium carbide; their thickness consists (50-70)mm and they are cemented to casing by means of silicium carbide solution solidifying in air. Invention allows to increase length and working surface area of cathode casing by (360-400)mm and to enhance its efficiency per day by 10% due to increased length of anode. EFFECT: improved design, enhanced efficiency of cell. 1 dwg

Description

 The invention relates to the field of non-ferrous metallurgy, in particular to the design of electrolytic cells for producing aluminum.

 The cathode device of an aluminum electrolyzer (USSR author's certificate) 377419 is known, in which the side lining is made of carbon-containing materials with different resistance to the melt contained in the cell of the electrolyzer, while its upper part is made of material with increased resistance, and the lower part is made of material with reduced resistance.

 A cathode device of an aluminum electrolyzer is known, in which the side lining is made with protrusions of carbon-containing materials (USSR copyright certificate 1611990).

 A cathode device of an aluminum electrolyzer is known, containing a rectangular metal casing lined with side coal blocks mounted on a brow made of refractory brick, hearth coal blocks with current-conducting rods, interblock seams, refractory and heat-insulating layers (RF patent 2061796, which is the closest analogue).

 The above cathode devices do not allow to increase the size of the anode of the cell to increase its current load and increase aluminum production without changing the dimensions of the casing of the cell, which requires large capital costs.

 The objective of the invention is to increase the area of the working space of the cathode casing formed by the side lining of the metal casing.

 The technical result is to increase the daily productivity of the cell.

 The technical result is achieved by the fact that in the device of an aluminum electrolyzer containing a metal rectangular casing, a side lining made of blocks mounted on a brow, carbon hearth blocks with current-carrying rods, interblock seams, refractory and heat-insulating layers, side lining blocks at the ends of the casing are made of silicon carbide with a thickness of 50-70 mm and glued to the casing with a solution of silicon carbide hardening in air.

 The invention allows to increase the length and area of the working surface of the cathode device by 360-400 mm, which will increase the length of the anode of the cell and increase the daily productivity of the cell to 10%.

 The drawing shows a section of the cathode device at its end.

 The cathode device consists of a metal rectangular casing 1, lined with side blocks 2, hearth coal blocks 3 with steel current-carrying rods 4, an interblock weld 5 of a hearth mass, a brow of refractory bricks 6, a refractory lining 7 and a heat-insulating lining 8.

 Side blocks 2 at the ends of the casing 1 are made of silicon carbide. The thickness of blocks 1 is 64 mm. Blocks of silicon carbide 1 are installed on the edge 6 and are glued to the casing with a solution of silicon carbide, which hardens in air.

 The invention allows the reconstruction of electrolyzers during their overhaul in the dimensions of the old casing.

Claims (1)

 A cathode device of an aluminum electrolyzer containing a rectangular metal casing, side lining made of blocks mounted on the edge, carbon hearth blocks with current-carrying rods, interblock seams, refractory and heat-insulating layers, characterized in that the side lining blocks at the ends of the casing are made of silicon carbide 50-70 mm thick and glued to the casing with a solution of silicon carbide, which hardens in air.