Three-dimensional shaping apparatus, control method thereof, and control program

The invention claimed is: 1. A three-dimensional shaping apparatus comprising: an electron gun that generates an electron beam; at least one first deflector that deflects the electron beam one-dimensionally or two-dimensionally; at least one electromagnetic lens that is arranged between said electron gun and said at least one first deflector, and that focuses the electron beam; a second deflector that is arranged between said electron gun and said at least one first deflector, and that deflects the electron beam one-dimensionally or two-dimensionally; and a controller that controls deflection directions of said at least one first deflector and said second deflector so that the deflection directions of said at least one first deflector and said second deflector are different from each other, and that causes only said at least one first deflector only to deflect the electron beam when scanning with the electron beam a region where powder is to be melted to shape three-dimensional objects, and that causes both said at least one first deflector and said second deflector to deflect the electron beam when scanning with the electron beam a region where the powder is not to be melted, wherein when the electron beam scans a region where the powder is not to be melted, said controller widens an area irradiated in a unit of time by the electron beam in comparison with an area irradiated in a unit of time by the electron beam when said second deflector is not caused to deflect, so as to prevent unintended melting of the powder in the region where the powder is not to be melted. 2. The three-dimensional shaping apparatus according to claim 1 , wherein said controller further controls the scanning speeds of said at least one first deflector and said second deflector so that the scanning speed of said second deflector is higher than the scanning speed of said at least one first deflector. 3. The three-dimensional shaping apparatus according to claim 1 , wherein said second deflector is provided between said electron gun and said electromagnetic lens. 4. The three-dimensional shaping apparatus according to claim 1 , wherein said second deflector is provided between said electromagnetic lens and said at least one first deflector. 5. The three-dimensional shaping apparatus according to claim 1 , wherein said controller controls the deflection directions of said at least one first deflector and said second deflector so that the deflection direction of said at least one first deflector and the deflection direction of said second deflector are perpendicular to each other. 6. The three-dimensional shaping apparatus according to claim 1 , wherein when the electron beam scans a region where the powder is to be melted, said controller further causes said second deflector to deflect the electron beam while the scanning speed of said at least one first deflector does not reach a predetermined scanning speed, and thereby diffuses heat given by the electron beam to the powder while the scanning speed of said at least one first deflector does not reach a predetermined scanning speed, the heat being diffused over the width of the deflection area of said second deflector, so as to prevent overheating of the powder in the region where the powder is to be melted. 7. A control method of a three-dimensional shaping apparatus, the three-dimensional shaping apparatus comprising: an electron gun that generates an electron beam; at least one first deflector that deflects the electron beam one-dimensionally or two-dimensionally; at least one electromagnetic lens that is provided between said electron gun and said at least one first deflector, and that focuses the electron beam; a second deflector that is provided between said electron gun and said at least one first deflector, and that deflects the electron beam one-dimensionally or two-dimensionally; and a controller that controls the deflection directions of said at least one first deflector and said second deflector, the control method comprising: generating the electron beam with said electron gun; focusing the electron beam with said electromagnetic lens; deflecting the electron beam one-dimensionally or two-dimensionally with said at least one first deflector and said second deflector; controlling the deflection directions of said at least one first deflector and said second deflector so that the deflection directions of said at least one first deflector and said second deflector are different from each other; causing only said at least one first deflector to deflect the electron beam when scanning with the electron beam a region where powder is to be melted to shape three-dimensional objects; and causing both said at least one first deflector and said second deflector to deflect the electron beam when scanning with the electron beam a region where the powder is not to be melted; the control method thereby diffusing heat given by the electron beam to the powder when the electron beam scans a region where the powder is not to be melted, the heat being diffused over the width of the deflection area of said second deflector, so as to prevent unintended melting of the powder in the region where the powder is not to be melted. 8. A non-transitory computer-readable medium storing a control program of a three-dimensional shaping apparatus, the three-dimensional shaping apparatus comprising: an electron gun that generates an electron beam; at least one first deflector that deflects the electron beam one-dimensionally or two-dimensionally; at least one electromagnetic lens that is provided between said electron gun and said at least one first deflector, and that focuses the electron beam; a second deflector that is provided between said electron gun and said at least one first deflector, and that deflects the electron beam one-dimensionally or two-dimensionally; and a controller that controls the deflection directions and scanning speeds of said at least one first deflector and said second deflector, the control program causing a computer to execute a control method comprising: generating the electron beam with said electron gun; focusing the electron beam with said electromagnetic lens; deflecting the electron beam one-dimensionally or two-dimensionally with said at least one first deflector and said second deflector; controlling the deflection directions of said at least one first deflector and said second deflector so that the deflection directions of said at least one first deflector and said second deflector are different from each other; causing only said at least one first deflector to deflect the electron beam when scanning with the electron beam a region where powder is to be melted to shape three-dimensional objects; and causing both said at least one first deflector and said second deflector to deflect the electron beam when scanning with the electron beam a region where the powder is not to be melted, the control method thereby diffusing heat given by the electron beam to the powder when the electron beam scans a region where the powder is not to be melted, the heat being diffused over the width of the deflection area of said second deflector, so as to prevent unintended melting of the powder in the region where the powder is not to be melted.