Casting apparatus and method for producing castings using it

What is claimed is: 1 . A casting apparatus for producing a casting by pouring a metal melt into a gas-permeable casting mold by gravity, comprising: a gas-permeable casting mold comprising a cavity including a sprue composed of a tubular portion and a cup portion having a larger diameter than that of the tubular portion to receive the metal melt, a runner constituting a flow path of the metal melt supplied through the sprue, and a product-forming cavity to be filled with the metal melt sent through the runner; a means for pouring the metal melt into the sprue by gravity; a gas-blowing unit comprising a gas-ejecting member to be connected to the sprue; and a mechanism for moving the gas-ejecting member; the gas-ejecting-member-moving mechanism placing the gas-ejecting member at a position just above the tubular portion and not interfering with gravity pouring of the metal melt, and moving it downward for connection to the tubular portion; and the gas-blowing unit blowing a gas to fill the product-forming cavity with the metal melt. 2 . The casting apparatus according to claim 1 , wherein the gas-ejecting member is placed by the gas-ejecting-member-moving mechanism such that a gas-ejecting port of the gas-ejecting member is below an upper edge of the cup portion. 3 . The casting apparatus according to claim 1 , wherein the gas-ejecting member is placed by the gas-ejecting-member-moving mechanism such that a gas-ejecting port of the gas-ejecting member comes into contact with the metal melt residing in the cup portion. 4 . The casting apparatus according to claim 1 , wherein the gas-ejecting member is a tapered nozzle capable of being inserted into the tubular portion. 5 . The casting apparatus according to claim 1 , wherein the pouring means enables a stream of the pouring metal melt to move between a position just above or near the tubular portion and a position away from the tubular portion within a region of the cup portion. 6 . The casting apparatus according to claim 1 , wherein the pouring means is placed at a position away from the position just above or near the tubular portion at least at the end of pouring of the melt so that the pouring means is located at a position away from an operation range of the gas-ejecting member. 7 . The casting apparatus according to claim 1 , further comprising a means for detecting a surface of the metal melt residing in the sprue, and outputting the detected signal; and a gas-ejecting-member-position-controlling means for receiving the signal output from the melt-surface-detecting means, and driving the gas-ejecting-member-moving mechanism to move the gas-ejecting member according to the signal. 8 . A method for producing a casting comprises the steps of: pouring a metal melt by gravity into a gas-permeable casting mold comprising a cavity including a sprue composed of a tubular portion and a cup portion having a larger diameter than that of the tubular portion to receive the metal melt, a runner constituting a flow path of the metal melt supplied through the sprue, and a product-forming cavity to be filled with the metal melt sent through the runner; and then blowing a gas into the cavity of the gas-permeable casting mold from a gas-ejecting member of a gas-blowing unit, to fill the product-forming cavity with the metal melt; wherein the gas-ejecting member is placed at a position just above the tubular portion and not interfering with gravity pouring of the metal melt, and moved downward to the sprue for connection to the tubular portion after gravity-pouring ends. 9 . The method for producing a casting according to claim 8 , wherein the gas-ejecting member is placed such that a gas-ejecting port of the gas-ejecting member is below an upper edge of the cup portion. 10 . The method for producing a casting according to claim 8 , wherein the gas-ejecting member is placed such that a gas-ejecting port of the gas-ejecting member comes into contact with the metal melt residing in the cup portion. 11 . The method for producing a casting according to claim 8 , further comprising the steps of placing a stream of the metal melt poured from a pouring means just above or near the tubular portion at an early stage of a pouring step, and moving the stream away therefrom within a region of the cup portion at an late stage of the pouring step. 12 . The method for producing a casting according to claim 8 , further comprising the step of controlling the position of the gas-ejecting member of the gas-blowing unit according to a surface position of the metal melt residing in the sprue. 13 . The method for producing a casting according to claim 8 , wherein the pouring means is placed at a position away from the position just above or near the tubular portion at least at the end of pouring of the melt so that the pouring means is located at a position away from an operation range of the gas-ejecting member.