Composite shaping apparatus and composite shaping method

The invention claimed is: 1. A composite shaping apparatus, at least one first roller configured to load a prepreg with pressure; at least one second roller configured to load the prepreg with pressure; and at least one motor configured to rotate at least one of the at least one first roller or the at least one second roller, wherein the at least one first roller and the at least one second roller are rotated while at least one of rotation speed, or presence/absence of rotating power is made different between the at least one first roller and the at least one second roller, wherein the at least one first roller comprises a first plurality of subsidiary rollers configured to clamp the prepreg, wherein the at least one second roller comprises a second plurality of subsidiary rollers that clamp the prepreg at a position different from a clamping position of the at least one first roller, wherein the first plurality of subsidiary rollers comprises a cylindrical or hollow cylindrical third roller that is rotatable about a first axis and two circular disc-shaped fourth rollers that are rotatable respectively about two second axes that are inclined with respect to the first axis, and the third roller and the two fourth rollers are disposed to form a space among the third roller and the fourth rollers, the space corresponding to a cross-sectional shape of a filler to be formed from the prepreg by the composite shaping apparatus, wherein the second plurality of subsidiary rollers comprises a cylindrical or hollow cylindrical fifth roller that is rotatable about a third axis and two circular disc-shaped sixth rollers that are rotatable respectively about two fourth axes that are inclined with respect to the third axis, and the fifth roller and the two sixth rollers are disposed to form a space among the fifth roller and the sixth rollers, the space corresponding to the cross-sectional shape of the filler to be formed from the prepreg by the composite shaping apparatus, wherein the at least one motor rotates a rotation shaft of the third roller at a first rotation speed, rotation shafts of the fourth rollers at a second rotation speed that is faster than the first rotation speed, a rotation shaft of the fifth roller at a third rotation speed that is slower than the first rotation speed, and wherein the sixth rollers are rotatable by friction force produced between the sixth rollers and the prepreg, instead of motive power transmitted from a motor to rotation shafts of the sixth rollers, and wherein the at least one first roller and the at least one second roller is configured to rotate so that a tensile force is produced in the filler between the at least one first roller and the at least one second roller. 2. The composite shaping apparatus according to claim 1 , wherein the at least one motor rotates rotation shafts of the first plurality of subsidiary rollers, and wherein at least one subsidiary roller of the second plurality of subsidiary rollers is rotatable by friction force produced between the at least one subsidiary roller and the prepreg, instead of motive power transmitted from a motor to a rotation shaft of the at least one subsidiary roller. 3. The composite shaping apparatus according to claim 1 , wherein first radii of the first plurality of subsidiary rollers equal to a maximum value of second radii of the second plurality of subsidiary rollers. 4. A composite shaping method comprising: loading the prepreg with pressure with the composite shaping apparatus according to claim 1 so that a shaped prepreg is manufactured. 5. The composite shaping method according to claim 4 , wherein the filler is shaped by loading a bar-shaped prepreg with pressure. 6. The composite shaping method according to claim 4 , wherein condition for making at least one of the rotation speed, or the presence/absence of rotating power different between the at least one first roller and the at least one second roller is determined in accordance with at least one of material of the prepreg, temperature at which the prepreg is loaded with pressure, humidity at which the prepreg is loaded with pressure, an angle between rotation axes of the at least one first roller and the at least one second roller, or radii of a circular disc-shaped roller measured at an end of a vertical section of the circular disc-shaped roller.