Slag control method and apparatus
First Claim
1. A method for controlling slag in a tap discharge of molten metal and floating slag from a tap hole of a tilting furnace which is variably tiltable between an upright, non-tilted position and a fully tilted position, said furnace having a trough extending outwardly from said tap hole for directing the flow of said molten metal and slag from said furnace to a discharge outlet, said method comprising the steps of:
- (a) sufficiently tilting said furnace and trough to discharge said molten metal and slag from said tap hole into said trough whereby said molten metal can flow under the influence of gravity out of said discharge outlet during the following steps (b) through (c);
(b) directing said flow of molten metal sequentially into a reservoir from which said slag can be discharged, into a passage from a bottom opening in said reservoir, generally upwardly along a weir that is partly defined by said passage, and over the top of said weir to said outlet;
(c) retaining said slag in said reservoir while permitting said molten metal to flow out of said outlet; and
(d) discharging said retained slag through a slag opening defined by said reservoir while maintaining said slag opening at least as far outwardly as is said weir and at a level above the level of said bottom opening.
2 Assignments
0 Petitions
Accused Products
Abstract
A method and apparatus are provided for controlling slag in a trough of a tilting furnace or in a free-standing tilting vessel. On a tilting furnace, the apparatus is mounted on a trough extending from the furnace tap hole and has a reservoir for receiving flow of molten metal and slag from the trough. The reservoir has a slag opening. One of its walls functions as a dam with a bottom opening. A passage extends from the bottom opening along a weir which terminates at an elevation above the bottom opening but below the slag opening. The molten metal flows over the weir and out of the device. The slag is retained in the reservoir and is discharged from the reservoir through the slag opening. In the free-standing tilting vessel, there is a reservoir, slag opening, dam portion, bottom opening, passage and weir, of a substantially similar design as that of the apparatus attached to a trough of a tilting furnace.
83 Citations
17 Claims
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1. A method for controlling slag in a tap discharge of molten metal and floating slag from a tap hole of a tilting furnace which is variably tiltable between an upright, non-tilted position and a fully tilted position, said furnace having a trough extending outwardly from said tap hole for directing the flow of said molten metal and slag from said furnace to a discharge outlet, said method comprising the steps of:
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(a) sufficiently tilting said furnace and trough to discharge said molten metal and slag from said tap hole into said trough whereby said molten metal can flow under the influence of gravity out of said discharge outlet during the following steps (b) through (c); (b) directing said flow of molten metal sequentially into a reservoir from which said slag can be discharged, into a passage from a bottom opening in said reservoir, generally upwardly along a weir that is partly defined by said passage, and over the top of said weir to said outlet; (c) retaining said slag in said reservoir while permitting said molten metal to flow out of said outlet; and (d) discharging said retained slag through a slag opening defined by said reservoir while maintaining said slag opening at least as far outwardly as is said weir and at a level above the level of said bottom opening. - View Dependent Claims (2)
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3. A method for controlling slag in a tap discharge of molten metal and floating slag from a tap hole of a tilting furnace which is variably tiltable between an upright, non-tilted position and a fully tilted position, said furnace having a trough extending outwardly from said tap hole for directing the flow of said molten metal and slag from said furnace to a discharge outlet, said method comprising the steps of:
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(a) sufficiently tilting said furnace and trough to discharge said molten metal and slag from said tap hole into said trough whereby said molten metal can flow under the influence of gravity out of said discharge outlet during the following steps (b) through (c); (b) directing said flow of molten metal sequentially into a reservoir from which said slag can be discharged, into a laterally offset passage from a bottom opening in said reservoir, generally upwardly along a weir that is partly defined by said passage, and over the top of said weir to said outlet; (c) retaining said slag in said reservoir while permitting said molten metal to flow out of said outlet; and (d) discharging said retained slag through a slag opening defined by said reservoir. - View Dependent Claims (4)
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5. A method for separating molten metal from slag in a tilting vessel, said vessel having a discharge outlet, said method comprising the steps of:
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(a) sufficiently tilting said vessel whereby said molten metal can flow under the influence of gravity out of said discharge outlet during the following steps (b) through (c); (b) directing said flow of molten metal sequentially into a reservoir from which said slag can be discharged, laterally into a passage from a bottom opening in said reservoir, generally upwardly along a weir that is partly defined by said passage, and over the top of said weir to said outlet; (c) retaining said slag in said reservoir while permitting said molten metal to flow out of said outlet; and (d) discharging said retained slag through a slag opening defined by said reservoir while maintaining said slag opening at least as far outwardly as is said weir and at a level above the level of said bottom opening. - View Dependent Claims (6)
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7. A method for separating molten metal from slag in a tilting vessel, said vessel having a discharge outlet, said method comprising the steps of:
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(a) sufficiently tilting said vessel whereby said molten metal can flow under the influence of gravity out of said discharge outlet during the following steps (b) through (c); (b) directing said flow of molten metal sequentially into a reservoir from which said slag can be discharged, into a laterally offset passage from a bottom opening in said reservoir, generally upwardly along a weir that is partly defined by said passage, and over the top of said weir to said outlet; (c) retaining said slag in said reservoir while permitting said molten metal to flow out of said outlet; and (d) discharging said retained slag through a slag opening defined by said reservoir. - View Dependent Claims (8)
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9. A method for separating molten metal from slag in a tilting vessel, said vessel having a discharge outlet, said method comprising the steps of:
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(a) sufficiently tilting said vessel whereby said molten metal can flow under the influence of gravity out of said discharge outlet during the following steps (b) through (c); (b) directing said flow of molten metal sequentially into a reservoir from which said slag can be discharged, into a passage from a bottom opening in said reservoir, generally rearwardly within said passage and then upwardly along a weir that is partly defined by said passage, and over the top of said weir to said outlet; (c) retaining said slag in said reservoir while permitting said molten metal to flow out of said outlet; and (d) discharging said retained slag through a slag opening defined by said reservoir.
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10. A method for separating molten metal and slag in a tiltable vessel, said vessel defining an open discharge end and a lateral opening inwardly of said open discharge end, said method comprising the steps of:
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(a) sufficiently tilting said vessel whereby said molten metal can flow under the influence of gravity out of said vessel at said discharge end; (b) damming said molten metal and slag and retaining said slag in said tiltable vessel while permitting said molten metal to flow out of said vessel in said tilted condition; and (c) discharging said retained slag through said lateral opening in said tiltable vessel to a location remote from said discharge end. - View Dependent Claims (11, 12, 13, 14)
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15. A method for separating molten metal and slag in a tiltable vessel, said vessel defining an open discharge end and a lateral opening inwardly of said open discharge end, said method comprising the steps of:
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(a) sufficiently tilting the vessel to discharge said molten metal and slag whereby said molten metal can flow under the influence of gravity out of said vessel at said discharge end; (b) establishing, for a selected angle of tilt of said vessel, a minimum depth of molten metal flow in a portion of said vessel with a weir across said vessel downstream of said lateral opening, and directing said flow rearwardly in a portion of said vessel; (c) damming the molten metal and slag flow between said weir and said lateral opening while permitting said molten metal to flow past said dam at a level below the top of said dam to retain said slag floating on top of said molten metal behind said dam; and (d) discharging the retained slag through said lateral opening.
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16. A method for separating molten metal and slag in a tiltable vessel, said vessel defining an open discharge end and a lateral opening inwardly of said open discharge end, said method comprising the steps of:
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(a) sufficiently tilting said vessel whereby said molten metal can flow under the influence of gravity out of said vessel at said discharge end; (b) providing a fixed dam extending upwardly in said vessel from an elevation in said molten metal below said slag to an elevation above said slag and then damming and retaining said molten metal and slag in said tilted vessel while permitting said molten metal to flow out of said vessel; and (c) discharging said retained slag through said lateral opening in said tilted vessel to a location remote from said discharge end.
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17. A method for separating molten metal and slag in a tiltable vessel, said vessel defining an open discharge end and a lateral opening inwardly of said open discharge end, said method comprising the steps of:
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(a) sufficiently tilting said vessel whereby said molten metal can flow under the influence of gravity out of said vessel at said discharge end; (b) establishing, for a selected angle of tilt of said vessel, a minimum depth of molten metal flow in a portion of said vessel with a weir across at least a part of said vessel downstream of said lateral opening, and directing said flow rearwardly and laterally in a portion of said vessel; (c) providing a fixed dam extending upwardly in said vessel from an elevation in said molten metal below said slag to an elevation above said slag between said weir and said lateral opening and then damming the molten metal and slag flow while permitting said molten metal to flow past said dam at a level below the top of said dam to retain said slag floating on top of said molten metal behind said dam; and (d) discharging the retained slag through said lateral opening.
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Specification