Casting method and apparatus
First Claim
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1. Method for casting ferrous or heavy metal thin-walled articles in vertically parted sand moulds of a mould-string plant where each mould includes a mould cavity having a top, said method comprising the steps of:
- providing a reservoir containing molten metal to be delivered to the moulds; and
filling the moulds with molten metal through counter-gravity delivery, said filling step including for each mould the steps of applying a variable pressure to the molten metal delivered to the mould, and varying the applied variable pressure during the filling of the mould cavity to thereby control a flow speed of the molten metal in the mould cavity, said applying step including the steps of (a) filling a major part of the mould cavity, up to an upper level below the top of the mould cavity, initially at a high flow speed which is high enough to prevent solidification of thin walls of the article but which is low enough to avoid undue turbulence in the mould cavity, and (b) filling of a remainder of the mould cavity from the upper level to the top of the mould at a low flow speed which is lower than the high flow speed and which achieves a gentle and chockfree filling at the top of the mould, and maintaining a backflow preventing pressure on the mould cavity after filling to the top of the cavity has taken place.
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Abstract
The present invention relates to a method for casting ferrous or heavy metal articles in vertically parted sand moulds of a mould string plant through an inlet below or aside the mould cavity, by filling the moulds with molten metal by counter-gravity delivery using a source of pressure. The pressure is varied during the filling procedure to steer the flow speed and impact on the mould of the molten metal upon complete filling of the mould cavity is reduced.
14 Citations
19 Claims
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1. Method for casting ferrous or heavy metal thin-walled articles in vertically parted sand moulds of a mould-string plant where each mould includes a mould cavity having a top, said method comprising the steps of:
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providing a reservoir containing molten metal to be delivered to the moulds; and
filling the moulds with molten metal through counter-gravity delivery, said filling step including for each mould the steps of applying a variable pressure to the molten metal delivered to the mould, and varying the applied variable pressure during the filling of the mould cavity to thereby control a flow speed of the molten metal in the mould cavity, said applying step including the steps of (a) filling a major part of the mould cavity, up to an upper level below the top of the mould cavity, initially at a high flow speed which is high enough to prevent solidification of thin walls of the article but which is low enough to avoid undue turbulence in the mould cavity, and (b) filling of a remainder of the mould cavity from the upper level to the top of the mould at a low flow speed which is lower than the high flow speed and which achieves a gentle and chockfree filling at the top of the mould, and maintaining a backflow preventing pressure on the mould cavity after filling to the top of the cavity has taken place. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
a pressure in a delivery conduit, a pressure in the reservoir, a level of said molten metal in the reservoir, a power supplied to provide the pressure to the molten metal, and a decrease in weight per unit time of said furnace.
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7. Method according to claim 1, wherein the molten metal is delivered to the mould from the reservoir which is provided below or sideways to the mould.
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8. Method according to claim 1, wherein the provided reservoir is sealed.
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9. Method according to claim 1, further including the step of producing the moulds from identical mould-halves which define on a first side a part of a first mould cavity and on a second and opposite side a part of a second mould cavity.
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10. Method according to claim 1, wherein the pressure applying step includes providing a source of pressure with a pump.
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11. Method according to claim 10, wherein the pump delivers a gas under pressure to the reservoir to thereby pressurize one of the reservoir or a sealed chamber within the reservoir.
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12. Method according to claim 1, further including the step of actuating a closure means for closing an inlet of the mould.
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13. Method according to claim 12, wherein the closure means comprises a movable closure element placed in a recess disposed in at least one mould parting surface.
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14. Method according to claim 13, wherein the movable closure element has an elongated body with a front end directed to a runner of the mould, and an opposite end is provided with means for catching the closure element for easy removal from the mould.
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15. Method according to claim 12, wherein the step of actuating the closure means occurs automatically when the moulds in a mould string are advanced in the mould string plant.
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16. Method according to claim 13, wherein the closure means further comprises an actuator for moving the closure element to its closed position.
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17. Method according to claim 1, further including the step of advancing the moulds of a mould string together after a single mould has been filled in order to place a next mould at a filling location.
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18. Method according to claim 17, wherein said advancing step advances the moulds before complete solidification of the metal occurs in an inlet to the mould.
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19. Method according to claim 1, further including the step of providing a resilient sealing member which surrounds an inlet of the mould and which provides for sealing engagement with a mouthpiece of a filling tube.
Specification