Rotation-linear motion conversion apparatus and steering apparatus

The invention claimed is: 1. A rotation-linear motion conversion apparatus comprising: a pinion shaft in which a pinion gear is formed; a rack bar in which a rack gear that engages with the pinion gear and a support surface along a longitudinal direction are formed; a support part that supports the rack bar movably along the support surface, and a plurality of rolling elements that are arranged between the support part and the rack bar and that are configured to roll on the support surface, wherein a cross-section of the rack bar, in a direction perpendicular to a longitudinal direction of the rack bar, has a substantially rectangular shape, wherein the rack bar includes a front surface having the rack gear, a rear surface opposite to the front surface, and lateral surfaces connecting the front surface and the rear surface, the support surface being a roll groove which is formed on each of the lateral surfaces connecting the front surface and the rear surface and on which the plurality of rolling elements roll, wherein the support part is formed in a saddle shape that bridges the rack bar, wherein the support part comprises: a lateral surface that is opposed to the lateral surface of the rack bar; and a surface that is opposed to the rear surface of the rack bar and that is substantially orthogonal to the lateral surface of the support part, wherein the support part includes a load rolling element roll groove that is opposed to the roll groove of the rack bar, and wherein the support part prevents the rack bar, via the plurality of rolling elements, from relatively moving in a direction perpendicular to a surface on which the rack gear is formed. 2. The rotation-linear motion conversion apparatus according to claim 1 , wherein the pinion gear and the rack gear are each formed as a spur gear, a tooth width direction of the rack gear crosses with respect to a width direction of the rack bar, and a pitch surface of the rack gear is tilted in a thickness direction of the rack bar. 3. The rotation-linear motion conversion apparatus according to claim 1 , comprising: a second rack gear that is formed on the rack bar; a second pinion gear that engages with the second rack gear; and a rotation drive device that rotates the second pinion gear. 4. The rotation-linear motion conversion apparatus according to claim 1 , comprising: a spiral ball thread groove that is formed on the rack bar; a ball nut that engages with the ball thread groove; and a rotation drive device that rotates the ball nut. 5. The rotation-linear motion conversion apparatus according to claim 1 , comprising: a rack cover that covers the outer circumference of the rack bar; a tilt part that is provided on the rack cover and tilts such that the tilt part approaches the rack bar as the tilt part is directed toward the rack bar; and a push part that pushes the support part to the tilt part in a longitudinal direction of the rack bar. 6. The rotation-linear motion conversion apparatus according to claim 5 , wherein the push part includes a second tilt part that tilts such that the second tilt part approaches the rack bar while the second tilt part is opposed to the rack bar, and the support part is interposed between the tilt part and the second tilt part in the longitudinal direction of the rack bar. 7. A steering apparatus comprising: a steering shaft that is connected to a steering wheel; a link member that is connected to a wheel; and a rotation-linear motion conversion apparatus that converts a rotation of the steering shaft into a linear motion and linearly moves the link member, wherein a rotation-linear motion conversion apparatus according to claim 1 is used as the rotation-linear motion conversion apparatus.