Specialized metallurgical processes – compositions for use therei – Processes – Process control responsive to sensed condition
Reexamination Certificate
2001-06-11
2002-12-31
Andrews, Melvyn (Department: 1742)
Specialized metallurgical processes, compositions for use therei
Processes
Process control responsive to sensed condition
C075S387000, C222S590000, C222S594000, C266S094000
Reexamination Certificate
active
06500228
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a molten metal dosing furnace that may be used for delivering molten metal to a downstream process such as a casting machine and, more particularly, a molten metal dosing furnace with metal treatment and level control.
2. Description of the Prior Art
There are many known arrangements and methods for moving molten metal between furnace vessels and, further, from furnace vessels to downstream devices, such as die casting machines. For example, U.S. Pat. No. 3,061,298 to Yamazoe discloses an apparatus for treating molten metals in which molten metal may be transferred between two holding vessels under the force of gravity. In the arrangement disclosed by the Yamazoe patent a first or upper vessel (e.g., ladle) is positioned above a second or lower vessel. The molten metal contained in the first ladle is transferred to the second ladle under the force of gravity. A combination electromagnetic recirculation pump and heating device is located between the two vessels for recirculating molten metal from the lower vessel to the upper vessel and for heating the molten metal as it passes through the recirculation pump.
U.S. Pat. No. 3,653,426 to Groteke et al. is directed to a furnace pouring and casting system that includes a holding furnace, a molten metal charging tower, and a molten metal pouring tower. The holding furnace is in fluid communication with both the charging tower and the pouring tower. When vacuum pressure is applied within the charging and pouring towers, molten metal flows from the holding furnace to the charging and pouring towers filling these chambers. The pouring tower is further connected to the mold cavity of a casting mold. In operation, after the charging and pouring towers are filled with molten metal, the charging tower is pressurized and forces molten metal into the pouring tower. The pouring tower, in turn, charges molten metal into the mold cavity under pressure.
U.S. Pat. No. 3,771,588 to Cavanagh discloses a molten metal injection casting arrangement for injecting molten metal into a casting mold. The apparatus disclosed by the Cavanagh patent includes a melting chamber that is in fluid communication with a holding chamber. The holding chamber is in fluid communication with the mold cavity of a casting mold. The holding chamber may be pressurized to force molten metal into the mold cavity of the casting mold under pressure. The melting chamber is used to replenish the supply of molten metal in the holding chamber.
U.S. Pat. No. 3,844,453 to Eickelberg discloses an apparatus for melting and pouring molten metal that includes a first vessel connected through a lower channel with a holding and pouring vessel (e.g., second vessel). The second vessel includes an outlet passage having an outlet opening for dosing molten metal from the second vessel. The second vessel is pressurized to dose the molten metal from the vessel. The first vessel is heated by a coreless induction heater. The lower channel between the two vessels is dimensioned so that molten metal freely flows between the vessels as the pressure is changed in the second vessel. The system disclosed by the Eickelberg patent is arranged such that as the second vessel is pressurized the first vessel remains substantially full of molten metal at all times for optimum operating efficiency of the induction heater heating the first vessel.
Often, a molten metal treatment step is included during the transfer of molten metal between furnace vessels or within the furnace vessel. For example, U.S. Pat. No. 4,881,670 to Yamaoka et al. discloses a holding furnace that includes means for treating the molten metal held within the holding furnace. The holding furnace includes a holding chamber for holding the molten metal at a predetermined temperature, a metal treatment chamber for cleaning the molten metal, and a melt supplying chamber configured to supply the molten metal to a downstream process. The metal treatment chamber includes a gas lance, a thermocouple, and upper and lower limit sensors. The gas lance may be used to inject inert gas into the molten metal to remove hydrogen and other gases from the molten metal.
U.S. Pat. No. 4,844,425 to Piras et al. discloses an apparatus for degassing and filtering molten aluminum alloys. The apparatus disclosed by the Piras et al. patent includes a vessel or container body that is divided into two chambers by an internal partitioning wall. A pair of degassing units is provided in one of the chambers for degassing the molten aluminum alloy contained within the first chamber. The partitioning wall separating the container body into two chambers includes a portion formed by a porous material, such as ceramic or graphite, for filtering the molten aluminum alloy passing from the first chamber to the second chamber.
U.S. Pat. No. 4,967,827 to Campbell discloses an apparatus for melting and casting metal in which molten metal is filtered as it is transferred from a melting vessel to a casting vessel. In the apparatus disclosed by the Campbell patent, the melting and casting vessels are connected by a horizontal launder. The melting and casting vessels are enclosed by a lid that includes a plurality of electric radiant heating elements. The lid further covers the launder connecting the melting and casting vessels. A filter box is located in the launder to filter the molten metal passing through the launder to the casting vessel.
It is also known in the art to recirculate molten metal within a molten metal holding/melting furnace to increase the thermal efficiency of the furnace or for other reasons. For example, U.S. Pat. No. 5,395,094 to Areaux discloses a metal melting furnace that is divided into three chambers. The metal melting furnace includes a main chamber in which the metal is melted and two forward chambers separated from the main chamber by a wall. The metal melting furnace disclosed by the Areaux patent includes a conveying conduit connecting the two front chambers for circulation of molten metal between these chambers to improve the overall thermal efficiency of the melting operations conducted within the metal melting furnace.
U.S. Pat. No. 5,411,240 to Rapp et al. discloses a two-chamber furnace for delivering molten metal to a casting machine. The two-chambers include a storage chamber and a removal chamber. An intermediate chamber is located between the storage chamber and the removal chamber. A pump is provided in the intermediate chamber for moving the molten metal from the storage chamber to the removal chamber. An overflow pipe is provided in the intermediate chamber and is used to recirculate a portion of the molten metal flowing into the intermediate chamber back to the storage chamber.
Further, it is known in the art to include means for controlling the level of molten metal contained in a molten metal holding/melting furnace or furnace vessel. For example, U.S. Pat. No. 5,662,859 to Noda discloses a constant molten metal surface level retaining furnace. The molten metal retaining furnace disclosed by the Noda patent includes a molten metal retaining chamber for storing the molten metal. The stored molten metal is intended for delivery to an injection sleeve of a die casting machine. A molten metal surface level control device is connected to the molten metal retaining chamber and is used to control the level of a float located in the molten metal retaining chamber. By controlling the level of the float within the molten metal retaining chamber, the overall level of the molten metal within the molten metal retaining chamber may be controlled.
U.S. Pat. No. 5,700,422 to Usui et al. discloses a molten metal supply device for supplying molten metal to an injection sleeve of a die casting machine. The molten metal supply device includes a holding furnace divided into a holding chamber and a supply chamber. The supply chamber is in fluid connection with the injection sleeve through a conduit. The holding chamber includes an immersion body that may be immersed in the molt
Kaleja Andreas
Kinosz Michael J.
Klingensmith Marshall A.
Alcoa Inc.
Andrews Melvyn
Webb Ziesenheim & Logsdon Orkin & Hanson, P.C.
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