Shape optimization analyzing method and apparatus therefor

The invention claimed is: 1. A method of forming an automotive steel-sheet structure, comprising: a design-space defining step of defining a design space by eliminating a desired part of plane elements and/or three-dimensional elements which form a structure model of the automotive steel-sheet structure; an optimization-block-model generating step of connecting nodes located on a side of the design space with straight lines to form a reference surface, and extruding the reference surface in a desired direction to generate an optimization block model in the defined design space to extend along surfaces of the structure model that define the design space in such a manner that the optimization block model is formed of three-dimensional elements including any of pentahedrons, hexahedrons, heptahedrons, and octahedrons, each three-dimensional element having multiple pairs of parallel surfaces and being positioned such that one of the multiple pairs of parallel surfaces having a largest area is oriented parallel to a surface having a largest area among all surfaces of the design space; a coupling step of coupling the generated optimization block model with the structure model; an analyzing step of performing analysis in accordance with input of an analytic condition to calculate an optimal shape of the optimization block model; and a structure forming step of forming the automotive steel-sheet structure in accordance with the calculated optimal shape of the optimization block model. 2. The method of forming an automotive steel-sheet structure according to claim 1 , wherein in the optimization-block-model generating step, the optimization block model is generated by disposing nodes at connection portions at which the optimization block model is to be coupled with the plane elements or the three-dimensional elements forming the structure model and by stacking hexahedron three-dimensional elements, used as the three-dimensional elements that form the optimization block model, so that the three-dimensional elements are arranged along flat surfaces including the nodes disposed at the connection portions. 3. The method of forming an automotive steel-sheet structure according to claim 1 , wherein the optimization block model includes a plurality of block bodies formed of three-dimensional elements, and the plurality of block bodies are coupled together with rigid elements, beam elements, or plane elements. 4. The method of forming an automotive steel-sheet structure according to claim 1 , wherein discretization is performed using an optimization parameter in optimization calculation using numerical analysis. 5. An apparatus for forming an automotive steel-sheet structure, the apparatus comprising a computer including a data storage unit and a processing unit, the processing unit including: a design-space defining unit that defines a design space by eliminating a desired part of plane elements and/or three-dimensional elements which form a structure model of the automotive steels-sheet structure; an optimization-block-model generating unit that connects nodes located on a side of the design space with straight lines to form a reference surface, and extrudes the reference surface in a desired direction to generate an optimization block model in the defined design space to extend along surfaces of the structure model that define the design space in such a manner that the optimization block model is formed of three-dimensional elements including any of pentahedrons, hexahedrons, heptahedrons, and octahedrons, each three-dimensional element having multiple pairs of parallel surfaces and being positioned such that one of the multiple pairs of parallel surfaces having a largest area is oriented parallel to a surface having a largest area among all surfaces of the design space; a coupling unit that couples the generated optimization block model with the structure model; an analytic-condition input unit that inputs an analytic condition for analysis on a desired portion of the structure model; an optimization analyzing unit that performs optimization calculation using numerical analysis on the optimization block model on the basis of the input analytic condition; and a structure forming unit that forms the automotive steel-sheet structure in accordance with the result of the optimization calculation. 6. The apparatus for forming an automotive steel-sheet structure according to claim 5 , wherein the optimization-block-model generating unit generates the optimization block model by disposing nodes at connection portions at which the optimization block model is to be coupled with the plane elements or the three-dimensional elements forming the structure model and by stacking hexahedron three-dimensional elements, used as the three-dimensional elements that form the optimization block model, so that the three-dimensional elements are arranged along flat surfaces including the nodes disposed at the connection portions. 7. The apparatus for forming an automotive steel-sheet structure according to claim 5 , wherein the optimization-block-model generating unit generates the optimization block model with a plurality of blocks formed of three-dimensional elements, and the plurality of blocks are coupled together with rigid elements, beam elements, or plane elements. 8. The apparatus for forming an automotive steel-sheet structure according to claim 5 , wherein the optimization analyzing unit performs discretization using an optimization parameter in optimization calculation using numerical analysis. 9. The apparatus for forming an automotive steel-sheet structure according to claim 5 , wherein the optimization analyzing unit performs optimization calculation using topology optimization. 10. The method of forming an automotive steel-sheet structure according to claim 1 , wherein in the optimization-block-model generating step, the optimization block model that extends along surfaces of the structure model that define the design space and in which the three-dimensional elements are finely divided parallel to a surface of the design space having the largest area is generated. 11. The apparatus for forming an automotive steel-sheet structure according to claim 5 , wherein the optimization-block-model generating unit generates the optimization block model that extends along surfaces of the structure model that define the design space and in which the three-dimensional elements are finely divided parallel to a surface of the design space having the largest area.