Electromechanical actuator and actuator unit

What is claimed is: 1. An electromechanical actuator comprising: an electric motor directly attached to an outer surface of a cylindrical housing; a conversion mechanism portion having a drive portion that is driven to rotate by the electric motor and a driven portion that is driven by the drive portion and advances and withdraws in a predetermined advancing and withdrawing direction, the conversion mechanism portion being accommodated in the housing; a sliding support mechanism that is coupled to the drive portion to transmit rotational force of the electric motor to the drive portion and allows the drive portion to slide in the advancing and withdrawing direction with respect to the electric motor; and a piston portion provided so as to be rotatable and so as to be unable to be displaced in the advancing and withdrawing direction with respect to the drive portion, the piston portion being controlled so as to be at a predetermined position in the advancing and withdrawing direction with respect to the housing by means of pressure of a fluid supplied to and discharged from the housing. 2. The electromechanical actuator according to claim 1 , wherein a driven portion-side pressure chamber that is a space on a driven portion advancing direction side relative to the driven portion and to and from which the fluid is supplied and discharged, and an intermediate pressure chamber that is a space between the driven portion and the piston portion are formed in the housing, and a communication path that brings the driven portion-side pressure chamber and the intermediate pressure chamber into communication with each other is formed in the driven portion. 3. The electromechanical actuator according to claim 1 , wherein an intermediate pressure chamber that is a space between the driven portion and the piston portion, and a drive portion-side pressure chamber that is a space on a driven portion withdrawing direction side relative to the driven portion and to and from which the fluid is supplied and discharged are formed in the housing, and the drive portion has: a tubular portion formed in a tubular shape extending in the advancing and withdrawing direction, an inner space of the tubular portion being in communication with the drive portion-side pressure chamber through a gap formed between an inner circumferential face side of the tubular portion and a rotary shaft of the electric motor, and the inner space being in communication with the intermediate pressure chamber through a gap formed between an outer circumferential face side of the tubular portion and the driven portion; and a partitioning wall provided inside of the tubular portion so as to partition the inner space into a space on the drive portion-side pressure chamber side and a space on the intermediate pressure chamber side. 4. The electromechanical actuator according to claim 1 , wherein the conversion mechanism portion has: an input screw provided as the drive portion; an output screw provided as the driven portion and capable of advancing and withdrawing in the advancing and withdrawing direction with respect to the input screw; and a plurality of balls provided between a screw channel formed in the input screw and a screw channel formed in the output screw. 5. The electromechanical actuator according to claim 1 , wherein the sliding support mechanism is a ball spline mechanism. 6. An actuator unit comprising: the electromechanical actuator according to claim 1 ; a spool portion that advances and withdraws in the advancing and withdrawing direction of the driven portion of the electromechanical actuator so as to switch a moving direction of the driven portion; and a connection mechanism that connects the piston portion of the electromechanical actuator and the spool portion to each other. 7. The actuator unit according to claim 6 , wherein the connection mechanism has: a first link member provided such that a first end side thereof is connected to the piston portion and extends in the advancing and withdrawing direction; a second link member provided such that a first end side thereof is pivotably connected to a second end side of the first link member and extends in a direction of intersecting the first link member; and a third link portion provided such that a first end side thereof is fixed to the spool portion and extends in a direction in which the first link member extends, and a second end side thereof is pivotably connected to an intermediate portion of the second link member in a direction in which the second link member extends, and the actuator unit further comprises a link end lock mechanism capable of switching the connection mechanism between a locked state where a second end portion of the second link member is fixed and an unlocked state where fixation of the second end portion is canceled. 8. The actuator unit according to claim 7 , wherein the link end lock mechanism has a cylinder having a tubular shape and a pair of pistons each being capable of sliding in a cylinder axis direction of the cylinder, the link end lock mechanism being configured such that the connection mechanism enters the locked state as a result of the pair of pistons sandwiching and holding the second end portion of the second link member, and such that the connection mechanism enters the unlocked state as a result of the pair of pistons moving away from each other. 9. The actuator unit according to claim 1 , wherein the piston portion is directly coupled to the drive portion. 10. The actuator unit according to claim 1 , wherein the piston portion is immovable in the advancing and withdrawing direction with respect to the drive portion regardless of whether the drive portion is rotated or not.