To provide a molten metal distribution method, for automatically distributing molten metal from a molten metal retaining furnace for replenishment without oxidizing molten metal in molten metal retaining furnaces for casting, and easily managing the amount of the molten metal in the molten metal retaining furnaces for casting.
Molten metal in the molten metal retaining furnace for replenishment, molten metal in optional one molten metal retaining furnace for casting and molten metal in the respective molten metal retaining furnaces for casting are communicated via a communication pipe having a siphon function, respectively, while performing management in such a manner that the molten metal level in the molten metal retaining furnace for replenishment is controlled to a range within a low molten metal level at which the siphon effect in the communication pips is not destroyed and within a high molten metal level at which the molten metal in the respective molten metal retaining furnaces for casting does not overflow, the molten metal in the molten metal retaining furnace for replenishment is distributed into the respective molten metal retaining furnaces for casting by the siphon action of the communication pipe.
JPH06269919A | 1994-09-27 | |||
JPH05169240A | 1993-07-09 | |||
JP2000210765A | 2000-08-02 | |||
JP2005088070A | 2005-04-07 | |||
JP2005088070A | 2005-04-07 | |||
JPH06269919A | 1994-09-27 | |||
JPH05169240A | 1993-07-09 | |||
JP2000210765A | 2000-08-02 |
Mitsuo Tanaka
Atsushi Maeda
Yasumichi Furukawa
Next Patent: OPTICAL SYSTEM, LASER BEAM MACHINING APPARATUS, AND SCANNING APPARATUS