Method for a pouring control and a storage medium for storing programs for causing a computer to work as a pouring control means

The invention claimed is: 1. A pouring control method for an automatic pouring device with a pouring ladle, wherein the device can control movements of the ladle in back and forth and up and down directions, and can also control its tilting, wherein the method comprises: setting a target flow rate of molten metal to be poured, applying a voltage input to a tilting motor so as to reach the target flow rate of the molten metal based on an inverse model of a mathematical model of molten metal that runs out of a pouring ladle and an inverse model of the tilting motor, estimating a flow rate of the molten metal that runs out of the ladle, and estimating a falling position and getting the estimated falling position to be a target position, and generating a trajectory for movement of the pouring ladle wherein the trajectory causes a height of a lip of the pouring ladle above a level of a sprue of a mold to decrease and causes the ladle not to strike any object located within a range of its movement, wherein the method controls the movement of the pouring ladle to pour the molten metal into the mold so that the height of the lip of the pouring ladle above the level of the sprue of the mold decreases and so that the ladle does not strike any object when the molten metal is being poured into the mold. 2. A pouring control method of claim 1 , wherein the trajectory for the movement of the pouring ladle is generated based on a mode in which the pouring ladle is going to strike the object (hereafter, the striking mode), which mode is previously set, and based on the conditions for changing the movement of the ladle, which conditions are decided based on the striking mode. 3. A pouring control method for an automatic pouring device with a pouring ladle, wherein the device can control movements of the ladle in back and forth and up and down directions, and can also control its tilting, wherein the method comprises: setting a target flow rate of molten metal to be poured, applying a voltage input to a tilting motor so as to reach the target flow rate of the molten metal based on an inverse model of a mathematical model of the molten metal that runs out of a pouring ladle and an inverse model of the tilting motor that tilts the ladle, estimating a flow rate of the molten metal that runs out of the ladle, and estimating a falling position of the molten metal and getting the estimated falling position to be a target position, setting a hypothetical axis at a lip of the ladle, generating a first trajectory for the movement of the pouring ladle wherein the trajectory causes the ladle not to strike any object located within the range of its movement and minimizes a height of the lip of the pouring ladle above a level of a sprue of a mold, wherein the method controls the movement of the pouring ladle so that the ladle does not strike any object when the molten metal is being poured into the mold, and so that the ladle pours the molten metal into the mold by turning the ladle around the hypothetical axis set at the lip of the ladle. 4. A pouring control method of claim 3 , wherein at a step of generating the first trajectory for the movement of the pouring ladle the first trajectory determines a location of the ladle based on a striking mode in which the pouring ladle is going to strike the object, and which mode is previously set.