Electromechanical actuator

The invention claimed is: 1. An electromechanical actuator comprising: a first electric motor; a first motion conversion mechanism; a second motion conversion mechanism; and a rotation restriction mechanism for the second motion conversion mechanism, wherein: the first motion conversion mechanism includes a first screw and a first nut that is fastened to the first screw; the second motion conversion mechanism includes a second screw and a second nut that is fastened to the second screw; the first motion conversion mechanism includes a first member that includes one of the first screw and the first nut, the first member being rotated by an output of the first electric motor, and a second member that includes the other of the first screw and the first nut; the second motion conversion mechanism includes a third member that includes one of the second screw and the second nut, the third member being movable integrally with the first member, and a fourth member that includes the other of the second screw and the second nut; and the rotation restriction mechanism is configured to be capable of selectively performing an operation that restricts rotation of the fourth member when the third member moves, and an operation that allows rotation of the fourth member when the third member moves. 2. The electromechanical actuator according to claim 1 , wherein each motion conversion mechanism is formed using one of a roller screw and a ball screw. 3. The electromechanical actuator according to claim 1 , further comprising: a gear that is rotated when receiving the output of the first electric motor; and teeth that are configured to mesh with the gear and rotate integrally with the first member, wherein the teeth form splines extending in an axial direction of the first member. 4. The electromechanical actuator according to claim 1 , further comprising a rotation stop mechanism that restricts rotation of the second member. 5. The electromechanical actuator according to claim 1 , further comprising a hollow first shaft, wherein the first shaft includes the first member and the third member that are arranged in a straight line. 6. The electromechanical actuator according to claim 5 , further comprising: a second shaft that is inserted into the first shaft; and a third shaft that surrounds the first shaft, wherein the first nut that functions as the first member and the first screw that functions as the second member are respectively arranged on an inner circumference of the first shaft and an outer circumference of the second shaft, and the second screw that functions as the third member and the second nut that functions as the fourth member are respectively arranged on an outer circumference of the first shaft and an inner circumference of the third shaft. 7. The electromechanical actuator according to claim 1 , further comprising: a housing that accommodates the fourth member; and a bearing unit that is held by the housing and supports the fourth member, wherein the bearing unit includes a thrust bearing and a radial bearing that are coaxial with the fourth member. 8. The electromechanical actuator according to claim 1 , further comprising a second electric motor that is capable of driving and rotating the fourth member. 9. The electromechanical actuator according to claim 8 , further comprising a rotation restriction mechanism for the first motion conversion mechanism, the rotation restriction mechanism for the first motion conversion mechanism being arranged to restrict rotation of the first member. 10. The electromechanical actuator according to claim 1 , wherein the rotation restriction mechanism for the second motion conversion mechanism includes a brake mechanism that is capable of restricting rotation of the fourth member. 11. The electromechanical actuator according to claim 10 , wherein the brake mechanism of the rotation restriction mechanism for the second motion conversion mechanism includes a torque limiter that is capable of restricting rotation of the fourth member when torque acting on the fourth member is less than a predetermined value, and the torque limiter is configured to be capable of changing the predetermined value. 12. The electromechanical actuator according to claim 11 , wherein the torque limiter includes two opposing members, which are opposed to each other, and a pressing force adjustment member, the two opposing members are coupled to the fourth member and the pressing force adjustment member, the two opposing members are configured to be coupled so that transmission of force between the two opposing members is allowed when torque acting between the two opposing members is less than a predetermined value, the two opposing members are configured to rotate freely relative to each other when the torque acting between the two opposing members is greater than or equal to the predetermined value, and the pressing force adjustment member is configured to be capable of adjusting a thrust load acting between the two opposing members. 13. The electromechanical actuator according to claim 12 , further comprising a spring member located between one of the two opposing members and the pressing force adjustment member, wherein the pressing force adjustment member is configured to be capable of adjusting a pressing force that presses the spring member against the opposing member. 14. The electromechanical actuator according to claim 12 , wherein the pressing force adjustment member includes a solenoid. 15. The electromechanical actuator according to claim 1 , wherein the rotation restriction mechanism for the second motion conversion mechanism further includes a second motion conversion mechanism torque limiter that is located between the first electric motor and the fourth member, the second motion conversion mechanism torque limiter includes two second opposing members that are capable of transmitting force to the first electric motor and the fourth member, the two second opposing members are configured to be coupled so that transmission of force between the two second opposing members is allowed when torque acting between the first electric motor and the fourth member is less than a predetermined value, and the two second opposing members are configured to rotate freely relative to each other when the torque acting between the first electric motor and the fourth member is greater than or equal to the predetermined value. 16. The electromechanical actuator according to claim 15 , further comprising a first motion conversion mechanism torque limiter located between the first electric motor and the first member, wherein the first motion conversion mechanism torque limiter includes two first opposing members, one of which is coupled to the first electric motor and the other of which is coupled to the first member, the two first opposing members are configured to be coupled so that transmission of force between the first opposing members is allowed when torque acting between the first electric motor and the first member is less than a predetermined value, and the two first opposing members are configured to rotate freely relative to each other when the torque acting between the first electric motor and the first member is greater than or equal to the predetermined value.