Method of manufacturing supporting structure, swaging jig for use therein and the supporting structure

What is claimed is: 1. A method of manufacturing a supporting structure comprising: disposing a supported member between a pair of support walls opposed to each other, the support walls and the supported member having shaft holes formed coaxially through the support walls and the supported member respectively; inserting a shaft member through the shaft holes in the disposed state, the shaft member having two ends each of which has a peripheral portion circumferentially divided into a plurality of swaging portions continuous without discontinuity; and swaging the swaging portions sequentially such that regions of the shaft member corresponding to the respective swaging portions are fixed in the shaft holes of the respective support walls, wherein: the swaging portions include first swaging portions and second swaging portions, both of which are disposed so as to be paired at both radial sides of the shaft holes, respectively; and a larger swage load is applied to each first swaging portion than to each second swaging portion. 2. The method according to claim 1 , wherein the support walls have respective hardly-deformable portions and respective easily-deformable portions having shorter distances from peripheral edges of the support walls to the shaft holes and smaller section modulus than the hardly-deformable portions, and a swage load applied to the first swaging portions located opposite the hardly-deformable portions is larger than a swage load applied to the second swaging portions located opposite the easily-deformable portions, respectively. 3. A swaging jig which is used in the method of manufacturing the supporting structure defined in claim 1 , the swaging jig having a pair of protrusions to form the swaging portions, the protrusions being each formed into an arc shape. 4. A supporting structure comprising: a pair of support walls opposed to each other with a supported member being interposed therebetween, the support walls and the supported member having shaft holes formed coaxially through the support walls and the support member respectively; and a shaft member inserted through the respective shaft holes of the support walls and the supported member, wherein: the shaft member has two ends each of which has a peripheral portion circumferentially divided into a plurality of swaging portions which are sequentially swaged such that regions of the shaft member corresponding to the respective swaging portions are fixed in the shaft holes of the respective support walls; and the corresponding regions of the swaging portions have outer peripheral edges which are formed into shapes differing from a complete circle over entire circumferences, respectively; the swaging portions include first swaging portions and second swaging portions, both of which are disposed so as to be paired at both radial sides of the shaft holes, respectively; and each first swaging portion has an impression of a groove deeper than each second swaging portion. 5. The supporting structure according to claim 4 , wherein the support walls have respective hardly-deformable portions and respective easily-deformable portions having shorter distances from peripheral edges of the support walls to the shaft holes and smaller section modulus than the hardly-deformable portions, and each first swaging portion located opposite the hardly-deformable portion has an impression of a groove deeper than each second swaging portion located opposite the easily-deformable portion.