Torsion beam manufacturing method and torsion beam manufacturing apparatus

The invention claimed is: 1. A torsion beam manufacturing method for manufacturing a torsion beam including a central portion of which a cross-section orthogonal to a longitudinal direction is a closed cross-section having a substantial V-shape or a substantial U-shape at any position in the longitudinal direction, and a shape changing portion which has a connection region leading to the central portion and including a closed cross-section having a shape different from the shape of the closed cross-section of the central portion, the method comprising: a preparation step of preparing a torsion beam material formed with the central portion and the shape changing portion; and a compression step of thickening at least the connection region through application of a compression force in the longitudinal direction to at least the connection region of the torsion beam material without applying a hydraulic pressure to an inside of the torsion beam material to obtain the torsion beam, after the preparation step. 2. The torsion beam manufacturing method according to claim 1 , wherein, in the compression step, in a state where an inner side of an outer portion in the longitudinal direction from the connection region is supported by an inner side support member and an outer side of the outer portion is pinched by an outer pinching member, the compression force is applied by moving the inner side support member and the outer pinching member in a direction approaching the central portion. 3. The torsion beam manufacturing method according to claim 2 , wherein, in the compression step, the outer side of the connection region is supported by an outer support member, and the outer support member is moved synchronously with movement of the inner side support member and the outer pinching member in the same direction. 4. The torsion beam manufacturing method according to claim 1 , wherein, in the compression step, the compression force is applied over an entire length of the torsion beam material by causing both ends of the torsion beam material to approach each other along the longitudinal direction. 5. The torsion beam manufacturing method according to claim 1 , wherein, in the compression step, a strain amount equal to or greater than 0.5% and equal to or smaller than 2.0% is applied to at least the connection region of the torsion beam material in the longitudinal direction by compressing the torsion beam material in an axial direction thereof, the strain amount being defined as a value obtained by dividing a difference between a total length of the torsion beam material before compression and a total length of the torsion beam after compression by the total length of the torsion beam material before compression and multiplying the result by 100. 6. The torsion beam manufacturing method according to claim 1 , further comprising: a pressing step of obtaining the torsion beam material by pressing a raw pipe, before the compression step. 7. The torsion beam manufacturing method according to claim 1 , wherein, in the preparation step, the torsion beam material having a warpage along the longitudinal direction in at least a part thereof in the longitudinal direction is prepared before the compression step, wherein, in the compression step, in a state where an elongation between both end edges of the torsion beam material is regulated, a pressing force for reducing the warpage is applied to the torsion beam material. 8. The torsion beam manufacturing method according to claim 7 , wherein, in the preparation step, the torsion beam material having both end edges inclined with respect to the longitudinal direction is prepared. 9. The torsion beam manufacturing method according to claim 7 , wherein, in the compression step, a strain amount equal to or greater than 0.5% and equal to or smaller than 2.0% is applied to at least the connection region of the torsion beam material in the longitudinal direction. 10. The torsion beam manufacturing method according to claim 1 , wherein, when the compression force is applied in the compression step, at least the outer surface of the connection region is supported.