Actuator and vehicle steering device

What is claimed is: 1. An actuator comprising: a motor comprising a rotating shaft; a rotation transmitting member configured to transmit rotation of the rotating shaft; a reverse input preventing device comprising an input member and an output member that rotate according to rotation of the rotation transmitting member, and configured to prevent external force inputs to the output member from being transmitted to the input member; a converting device comprising a nut that rotates according to the rotation of the output member, and configured to convert a rotary motion of the nut into a linear motion; and a rod configured to advance and retract according to the linear motion of the converting device, wherein the input member and the rotation transmitting member are integrated with each other, the output member and the nut are integrated with each other; the input member comprises a cylindrical section having a substantially circular inner circumferential surface, and the output member comprises an axial support section located at an inner side of the cylindrical section and configured to support the cylindrical section rotatably about an axis of the cylindrical section. 2. The actuator according to claim 1 , wherein the reverse input preventing device comprises: the output member comprising a lock section having an outer circumferential surface on which a plurality of flat surfaces are formed; an outer circumferential wall section on which a substantially circular inner circumferential surface surrounding an outer circumference of the lock section is formed; a pair of pins disposed between each of the flat surfaces and the inner circumferential surface; a plurality of elastic bodies each disposed between the pair of pins and configured to urge the pair of pins to separate from each other in a circumferential direction; and the input member comprising a plurality of claws disposed between the outer circumferential wall section and the lock section to shift in the circumferential direction with respect to the plurality of flat surfaces, each pair of pins pressed by the elastic body is sandwiched between the flat surface and the inner circumferential surface to disable turning of the output member, and each of the claws that moves in the circumferential direction according to turning of the input member presses one of the pair of pins against urging force of the elastic body to allow the output member to turn. 3. The actuator according to claim 2 , wherein the input member comprises a driving-force transmitting section that moves in a circumferential direction, the output member comprises a driving-force transmitted section located on a track of the driving-force transmitting section, and the driving-force transmitted section and the driving-force transmitting section are separated from each other in the circumferential direction. 4. The actuator according to claim 1 , wherein the input member comprises a driving-force transmitting section that moves in a circumferential direction, the output member comprises a driving-force transmitted section located on a track of the driving-force transmitting section, and the driving-force transmitted section and the driving-force transmitting section are separated from each other in the circumferential direction. 5. An actuator comprising: a motor comprising a rotating shaft; a worm gear coupled to the rotating shaft; a worm wheel meshed with the worm gear; a reverse input preventing device comprising an input member and an output member that rotate according to rotation of the worm wheel, and configured to prevent external force inputs to the output member from being transmitted to the input member; a converting device comprising a nut that rotates according to the rotation of the output member, and configured to convert a rotary motion of the nut into a linear motion; and a rod configured to advance and retract according to the linear motion of the converting device, wherein the input member and the worm wheel are integrated with each other, the output member and the nut are integrated with each other; the input member comprises a cylindrical section having a substantially circular inner circumferential surface, and the output member comprises an axial support section located at an inner side of the cylindrical section and configured to support the cylindrical section rotatably about an axis of the cylindrical section. 6. The actuator according to claim 5 , wherein the reverse input preventing device comprises: the output member comprising a lock section having an outer circumferential surface on which a plurality of flat surfaces are formed; an outer circumferential wall section on which a substantially circular inner circumferential surface surrounding an outer circumference of the lock section is formed; a pair of pins disposed between each of the flat surfaces and the inner circumferential surface; a plurality of elastic bodies each disposed between the pair of pins and configured to urge the pair of pins to separate from each other in a circumferential direction; and the input member comprising a plurality of claws disposed between the outer circumferential wall section and the lock section to shift in the circumferential direction with respect to the plurality of flat surfaces, each pair of pins pressed by the elastic body is sandwiched between the flat surface and the inner circumferential surface to disable turning of the output member, and each of the claws that moves in the circumferential direction according to turning of the input member presses one of the pair of pins against urging force of the elastic body to allow the output member to turn. 7. The actuator according to claim 6 , wherein the input member comprises a driving-force transmitting section that moves in a circumferential direction, the output member comprises a driving-force transmitted section located on a track of the driving-force transmitting section, and the driving-force transmitted section and the driving-force transmitting section are separated from each other in the circumferential direction. 8. The actuator according to claim 5 , wherein the input member comprises a driving-force transmitting section that moves in a circumferential direction, the output member comprises a driving-force transmitted section located on a track of the driving-force transmitting section, and the driving-force transmitted section and the driving-force transmitting section are separated from each other in the circumferential direction. 9. A vehicle steering device comprising: an actuator having a rod that advances and retracts the wheels of a vehicle, wherein the actuator comprises: the rod; a motor comprising a rotating shaft; a rotation transmitting member configured to transmit rotation of the rotating shaft; a reverse input preventing device comprising an input member and an output member that rotate according to rotation of the rotation transmitting member, and configured to prevent external force input to the output member from being transmitted to the input member; and a converting device comprising a nut that rotates according to the rotation of the output member, and configured to convert a rotary motion of the nut into a linear motion of the rod, the input member and the rotation transmitting member are integrated with each other, the output member and the nut are integrated with each other; the input member comprises a cylindrical section having a substantially circular inner circumferential surface, and the output member comprises an axial support section located at an inner side of the cylindrical section and configured to support the c