| 摘要 |
A device using the live welding method for aluminum electrolytic cell overhauling under series full current consists of short-circuit buses at the bottom of the cell (1), pillar buses (2), an anode bus (3), a balance bus (4), a inter-cell standby bus (5), a door-shaped pillar clamp (6), an arcuate clamp (7) of anode buses, a current conversion switch (8, a mechanical switching device (9) for the short-circuit port, a voltage sensor and wires thereof (10), a temperature sensor and wires thereof (11), a system (12) for data acquiring, displaying, analyzing and alarming, an A-side welding area (13), a B-side welding area (14) and compression-joint points (15) on pillar soft belts of overhauling cells; and the live welding method comprises the following steps: when welding is required to be performed in some zone, the currents of short-circuit buses at the bottom of the cell (1) and pillar buses (2) which influence the welding area most are cut off, the serial currents are shunted to other pillar buses (2), other buses at the bottom of the cell (1) and the inter-cell standby buses (5) such that the magnetic field intensity at the welding area can be lowered to the extent that welding can be performed so as to perform welding, and such a device and method can achieve live welding of aluminum electrolytic cells overhauling under series full current. |
| 主权项 |
1. A live welding method for aluminum electrolytic cell overhauling under series full current, used for welding cathode soft belt, pillar buses and short-circuit buses at the bottom of the cell, the method comprising:
dividing an electrolytic cell welding area into a plurality of zones at a power output side, and a plurality of zones at a power input side, using different guiding-current methods upon welding at the power output side and the power input side, serial currents being guided through all of the pillar buses and short-circuit buses at the bottom of the cell and an inter-cell standby bus; during the welding of a zone, cutting off currents of short-circuit buses at the bottom of the cell and pillar buses which influence a magnetic field intensity of the zone, guiding the currents of the serial currents passing through said short-circuit buses at the bottom of the cell and pillar buses to the pillar buses, short-circuit buses at the bottom of the cell and an inter-cell standby bus of other zones not to be welded, such that the magnetic field intensity at the zone to be welded is lowered to the extent that welding can be performed, and then using a welding machine to perform welding. |
