Three-dimensional object manufacturing method and three-dimensional shaping apparatus

1 . An information processing method for generating slice data in a shaping apparatus configured to manufacture a three-dimensional object including a shaping object by sequentially stacking shaping materials based on the slice data generated for each layer, the information processing method comprising the steps of: acquiring cross-sectional data on a cross-section corresponding to a target layer of the shaping object in order to generate the slice data of the target layer; judging the presence/absence of a support required region, which requires a support for supporting the shaping object, in the target layer, based on the cross-sectional data and a shape of the shaping object located above the target layer; determining, when the support required region is present in the target layer, a type of the support to be disposed in the support required region according to a load correspondence value which indicates the magnitude of a load applied from the top; and generating, as the slice data of the target layer, image data including a structure region indicating the cross-section of the shaping object in the target layer and a support region indicating the cross-section of the support, based on the cross-sectional data and the determined type of the support. 2 . The information processing method according to claim 1 , wherein the shaping materials are sequentially stacked from the bottom to the top, and the slice data is sequentially generated from the top to the bottom. 3 . The image processing method according to claim 1 , further comprising a step of storing the generated slice data of each layer to a storage unit, wherein in the judging step, the presence/absence of the support required region in the target layer is judged based on the cross-sectional data of the target layer, and upper layer slice data, which is the slice data of a layer directly above the target layer stored in the storage unit. 4 . The information processing method according to claim 3 , wherein in the judging step, it is judged that the support required region is present in the target layer when a point is located outside the cross-section of the shaping object in the target layer, and a point located directly above this point in the upper layer slice data is located inside the structure region or the support region. 5 . The information processing method according to claim 4 , wherein in the determining step, when a region located directly above the support required region in the upper layer slice data is a structure region, the type of the support to be disposed in the support required region is determined according to the load correspondence value, and when a region located directly above the support required region in the upper layer slice data is a support region, a support of the same type as the support disposed in this support region, is set. 6 . The information processing method according to claim 1 , wherein the type of the support is classified by a strength of the support, and wherein in the determining step, the strength of the support of the type to be determined when the load correspondence value is a predetermined set value or more is higher than the strength of the support of the type to be determined when the load correspondence value is smaller than the set value. 7 . The information processing method according to claim 1 , wherein the type of the support is classified by a strength of the support, and wherein when the support required region is continuously present in a vertical direction, the strength of the support of the type to be disposed in the support required region of which length from the highest level of the support required region is a predetermined set value or more is higher than the strength of the support of the type to be disposed in the highest level of the support required region. 8 . The information processing method according to claim 1 , wherein when the shaping apparatus is configured such that compressive force is applied to a three-dimensional object being manufactured when the shaping materials are stacked, the load correspondence value includes a value corresponding to the compressive force. 9 . The information processing method according to claim 1 , wherein the shaping apparatus stacks the shaping materials in plane units. 10 . The information processing method according to claim 9 , wherein the shaping apparatus includes an image forming unit configured to form each layer based on the slice data. 11 . The information processing method according to claim 10 , wherein the image forming unit forms each layer using an electrophotographic system. 12 . An information processing apparatus for generating slice data in a shaping apparatus configured to manufacture a three-dimensional object including a shaping object by sequentially stacking shaping materials based on the slice data generated for each layer, the information processing apparatus comprising: an acquiring unit configured to acquire cross-sectional data on a cross-section corresponding to a target layer of the shaping object in order to generate the slice data of the target layer; a judging unit configured to judge the presence/absence of a support required region, which requires a support for supporting the shaping object, in the target layer, based on the cross-sectional data and a shape of the shaping object located above the target layer; a determining unit configured to, when the support required region is present in the target layer, determine a load correspondence value which indicates the magnitude of a load applied from the top, and determine a type of the support to be disposed in the support required region according to the load correspondence value; and a generating unit configured to generate, as the slice data of the target layer, image data including a structure region indicating the cross-section of the shaping object in the target layer and a support region indicating the cross-section of the support, based on the cross-sectional data and the determined type of the support. 13 . A method for manufacturing a three-dimensional object including a shaping object by sequentially stacking shaping materials based on slice data generated for each layer, steps of generating the slice data comprising the steps of: acquiring cross-sectional data on a cross-section corresponding to a target layer of the shaping object in order to generate the slice data of the target layer; judging the presence/absence of a support required region, which requires a support for supporting the shaping object, in the target layer, based on the cross-sectional data and a shape of the shaping object located above the target layer; determining, when the support required region is present in the target layer, a load correspondence value which indicates the magnitude of a load applied from the top, and determining a type of the support to be disposed in the support required region according to the load correspondence value; and generating, as the slice data of the target layer, image data including a structure region indicating the cross-section of the shaping object in the target layer and a support region indicating the cross-section of the support, based on the cross-sectional data and the determined type of the support. 14 . A method for manufacturing a three-dimensional object including a shaping object by sequentially stacking shaping materials based on slice data generated for each layer, wherein the three-dimensional object includes a structure constituting the shaping object and a support for supporting the structure, and wherein when the three-dimensional obj