RU2175689C2 - Joint in cathode section of electrolyzer and process of its manufacture - Google Patents

Abstract

FIELD: electrometallurgy, erection and repair of aluminum electrolyzer. SUBSTANCE: joint includes steel beam, bimetal steel and aluminum adapter, cathode chute in the form of flexible package of aluminum strips and aluminum bus of cathode bus arrangement rigidly linked in sequence. Novelty lies in that cross-section of adapter is equal to cross-section of steel beam. Joint is fitted with steel plates to shunt contact of bimetal adapter with steel beam placed with clearance of 1.0-10,0 mm relative one another along perimeter of bimetal adapter and steel beam, perpendicular to line of their contact. In this case total area of cross-section of steel plates is less or equal to area of cross-section of steel beam. EFFECT: improved electrical properties of joint, reduced electric resistance, prolonged service life of cathode section, improved working conditions during repair of electrolyzer. 10 cl, 2 dwg

Description

 The invention relates to electrometallurgy and can be used in the installation and repair of electrolyzers for aluminum production.

 A compound in the cathode section of an electrolytic cell for aluminum production is known, comprising successively rigidly connected steel blooms, the end part of which is clad with a copper plate from above, a bimetallic copper-aluminum adapter. Cathode descent in the form of a flexible package, aluminum strips and an aluminum cathode busbar. A bimetallic copper-aluminum adapter is connected to a steel bloom with an overlap bolt connection passing through the adapter and blooms (see RF patent N 2085624, IPC C 25 C 3/16, H 01 R 4/62, publ. 07.27.97).

 A disadvantage of the known connection is that the bolted connection passes through the adapter and blooms, thereby reducing the useful area of their contact for supplying current to the cell. In addition, the device is complex, since two bimetallic adapters are essentially installed on the current path: steel - copper and copper - aluminum, which limits the passage of current and affects the electrical properties of the connection.

 Known connection in the cathode section for the production of aluminum, containing consistently rigidly connected steel blooms, bimetal steel-aluminum adapter, cathode descent in the form of a flexible package of aluminum strips and aluminum busbar cathode busbar. The bimetallic adapter is made in the form of a set of plates, which are welded to the steel bloom and cathode descent butt to the corresponding metals of the same name. The cross-sectional area of the bimetallic adapter is less than the cross-sectional area of steel bloom (see RF patent N 2069709, IPC C 25 C 3/16, publ. 11/27/96).

 A disadvantage of the known compound is that the cross-sectional area of the bimetallic adapter is less than the cross-sectional area of the bloom, which limits the useful contact area for supplying current to the cell. In addition, welds between the steel bloom and the steel part of the bimetallic adapter are in the path of the current, which limits the useful power of the electrolyzer and affects the electrical properties of the connection.

A known method of manufacturing a connection in the cathode section of an electrolyzer for aluminum production, comprising successively rigidly connected steel blooms, a bimetal steel-aluminum adapter, a cathode descent in the form of a flexible package of aluminum strips and an aluminum cathode busbar. The bimetallic adapter is made in the form of a set of bimetallic plates, which are welded to the steel bloom and to the cathode descent of the corresponding metals of the same name butt. The cross-sectional area of the bimetallic adapter is taken less than the cross-sectional area of the steel bloom (see RF patent N 2069709, IPC C 25 C 3/16, publ. 11/27/96)
The disadvantage of this method is that according to the known manufacturing technology, a compound with insufficiently good electrical properties is obtained, which limits the useful power of the electrolyzer.

 The problem to which this invention is directed is to improve the electrical properties of the compound, reduce the electrical resistance of the compound, which helps to increase the useful power of the electrolyzer and improve the manufacturing technology of the compound.

The invention consists in the following
To the connection in the cathode section of the electrolyzer containing successively rigidly connected steel blooms, a bimetallic steel-aluminum adapter, a cathode descent in the form of a flexible package of aluminum strips and an aluminum busbar of the cathode busbar, the cross section of the bimetallic steel-aluminum adapter is equal to the cross section of the steel bloom, the connection is equipped with steel plumbing contacts bimetallic adapter with steel bloom located with a gap of 1-10 mm from each other around the perimeter of the bi metal adapter and steel bloom perpendicular to the line of contact, while the total cross-sectional area of the steel plates is less than or equal to the cross-sectional area of the steel bloom.

 In addition, the thickness of the aluminum layer of the bimetallic adapter is 10-15 mm, and the thickness of the steel layer of the bimetallic adapter is 3-35 thickness of the aluminum layer.

 In addition, the thickness of the shunt contact of the steel plate is 5-10 mm, and its length is 3-10 values of its thickness.

 In addition, steel shunting contact plates are welded respectively to the steel bloom and to the steel layer of the bimetallic adapter or to only one of them with one end, and the other ends of which are pressed against the second of them by an external bolt connection.

 This allows you to improve the electrical properties of the compound: to reduce the value of electrical resistance, which helps to increase the useful power of the electrolyzer.

 In the method of manufacturing a connection in the cathode section of the electrolyzer, comprising a serial rigid connection of steel bloom, a bimetallic steel-aluminum adapter, a cathode descent in the form of a flexible package of aluminum strips and an aluminum cathode busbar, the cross section of the bimetallic steel-aluminum adapter is chosen equal to the cross-section of the steel adapter with steel bloom use steel plates, they are placed with a gap of each other each other of 1-10 mm around the perimeter of the adapter bimetallic steel blooms and perpendicular to the line of contact, the total cross sectional area of the steel plate taking less than or equal cross-sectional area of steel blooms.

 In addition, the thickness of the aluminum layer of the bimetallic adapter is taken equal to 10-15 mm, and the thickness of the steel layer of the bimetallic adapter is taken equal to 3-35 thickness of the aluminum layer.

 In addition, the thickness of the shunt steel plate is taken equal to 5-10 mm, and its length is chosen equal to 3-10 the size of its thickness.

 In addition, steel shunting contact plates are welded to the steel bloom and to the steel layer of the bimetallic adapter or to only one of them with one end, and the other ends of which are pressed against the second of them with an external bolt connection.

 In addition, the aluminum layer of the bimetallic adapter is connected by argon-arc welding with the first ends of the aluminum strips of the cathode descent, 1-5 strips at a time, with forced cooling of the welds, while the temperature of the connection line of the steel layer with the aluminum layer of the bimetallic adapter is less than the recrystallization temperature aluminum.

 In addition, the aluminum busbar of the cathode busbar is connected by argon-arc welding with the second ends of the aluminum strips of the cathode descent, 1-5 strips at a time, with forced cooling of the welds.

 This allows to improve the manufacturing technology of the compound.

 The invention is illustrated in the drawing, where in FIG. 1 shows an example of the implementation of the proposed technical solution, General view, in FIG. 2 is a section through shunt plates.

 The connection in the cathode section of the electrolyzer contains successively rigidly connected steel blooms 1, bimetallic steel-aluminum adapter 2, cathode descent 3 in the form of a flexible package of aluminum strips and an aluminum cathode busbar 4.

 The cross section of the bimetallic steel-aluminum adapter 2 is equal to the cross section of the steel bloom 1, along the perimeter of which there are perpendicular and symmetrical lines 5 of their contact with a gap of 1-10 mm from each other, shunt contact steel plates 6, the total cross-sectional area of which is less than or equal to the cross-sectional area steel bloom 1.

 The thickness of the aluminum layer 7 of the bimetallic adapter 2 can be equal to 10-15 mm, and the thickness of the steel layer 8 of the bimetallic adapter 2 can be 3-35 thicknesses of the aluminum layer 7.

 The thickness of the shunt contact of the steel plate 6 may be 5-10 mm, and its length may be 3-10 values of its thickness.

 The contact shunting steel plates 6 can be welded respectively to the steel bloom 1 and to the steel layer 8 of the bimetal adapter or to only one of them with one end, and the other ends of which can be pressed against the second of them with an external bolt connection (in Fig. 1 not shown), providing the necessary force of pressing parts.

 The current supply is carried out on an aluminum bus 4, cathodic descent 3, bimetal steel-aluminum adapter 2, bypass contact plates 6 and steel bloom 1.

 The manufacture of the compound begins with explosion welding of the steel layer 8 with the aluminum layer 7 of the bimetallic adapter 2. Then, the shunt contact steel plates 6 are welded, for example, to the steel bloom 1 and to the steel layer 8 of the bimetallic adapter 2. The aluminum layer 7 of the bimetal adapter 2 is connected by argon-arc welding to the first the ends of the aluminum strips of the cathode descent 3, the second ends of which are connected by argon arc welding with the aluminum bus 4 of the cathode busbar.

 The proposed technical solution allows to improve the electrical properties of the compound, reduce the electrical resistance of the compound and improve its manufacturing technology. In addition, the service life of the cathode section is increased, working conditions are improved during the repair of the cell.

Claims (10)

 1. The connection in the cathode section of the electrolyzer, containing consistently rigidly connected steel blooms, a bimetallic steel-aluminum adapter, a cathode descent in the form of a flexible package of aluminum strips and an aluminum busbar of the cathode busbar, characterized in that the cross section of the bimetallic steel-aluminum adapter is equal to the cross section of the steel blues steel plates for shunting the contact of the bimetallic adapter with steel bloom located with a gap from each other 1 - 10 mm along the perimeter of the adapter bimetallic steel blooms and perpendicular to the line of contact, the total cross sectional area of the steel plate is less than or equal to the cross-sectional area of steel blooms.  2. The compound according to claim 1, characterized in that the thickness of the aluminum layer of the bimetallic adapter is 10-15 mm, and the thickness of the steel layer of the bimetallic adapter is 3 to 35 thicknesses of the aluminum layer.  3. The compound according to claim 1, characterized in that the thickness of the shunting contact of the steel plate is 5 to 10 mm, and its length is 3 to 10 values of its thickness.  4. The connection according to claim 1, characterized in that the contact shunting steel plates are welded respectively to the steel bloom and to the steel layer of the bimetallic adapter or to only one of them at one end, and the other ends being pressed against the second of them by an external bolt connection.  5. A method of manufacturing a connection in the cathode section of the electrolyzer, comprising a serial rigid connection of steel bloom, a bimetallic steel-aluminum adapter, a cathode descent in the form of a flexible package of aluminum strips and an aluminum busbar of the cathode busbar, characterized in that the cross section of the bimetallic steel-aluminum adapter is chosen equal to the cross section , for shunting the contact of the bimetallic adapter with steel bloom use steel plates, their location ayut with clearance from one another 1 - 10 mm along the perimeter of the adapter bimetallic steel blooms and perpendicular to the line of contact, the total cross sectional area of the steel plates take less or equal to the cross sectional area of steel blooms.  6. The method according to p. 5, characterized in that the thickness of the aluminum layer of the bimetallic adapter is taken equal to 10 - 15 mm, and the thickness of the steel layer of the bimetallic adapter is taken equal to 3 to 35 thicknesses of the aluminum layer.  7. The method according to p. 5, characterized in that the thickness of the shunt steel plate is taken equal to 5 to 10 mm, and its length is chosen equal to 3 to 10 of its thickness.  8. The method according to p. 5, characterized in that the shunt contact steel plates are welded to the steel bloom and to the steel layer of the bimetallic adapter or to only one of them with one end, and the other ends of which are pressed to the second of them with an external bolt connection.  9. The method according to claim 5, characterized in that the aluminum layer of the bimetallic adapter is connected by argon-arc welding with the first ends of the aluminum strips of the cathode descent, 1 to 5 strips at a time, with forced cooling of the welds, while maintaining the temperature of the connection line of the steel layer with an aluminum layer of a bimetallic adapter smaller than the recrystallization temperature of aluminum.  10. The method according to claim 5, characterized in that the aluminum bus of the cathode busbar is connected by argon arc welding with the second ends of the aluminum strips of the cathode descent, 1 to 5 strips at a time, with forced cooling of the welded joints.

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