Actuator device and control method

The invention claimed is: 1. An actuator device comprising: a cylinder including an internal space; a piston accommodated in the internal space and forming a pair of pressure chambers together with the cylinder, the piston being configured to move relative to the cylinder; a first actuator connected to one of the pair of pressure chambers and including a first fluid cylinder, a first electric motor, and a first linear motion mechanism; a second actuator connected to the other of the pair of pressure chambers and including a second fluid cylinder, a second electric motor, and a second linear motion mechanism; a position detector configured to detect a position of the piston relative to the cylinder; a pressure detector configured to detect a pressure of any one of the pair of pressure chambers; and a controller configured to control the first actuator and the second actuator, wherein: the controller controls the first actuator such that the position detected by the position detector is made close to a target position; the controller controls the second actuator such that the pressure detected by the pressure detector is made close to a target pressure; when controlling the first actuator, the controller calculates a target rotating speed of the first electric motor based on the target position and the position of the piston detected by the position detector; and the controller controls rotation of the first electric motor based on the target rotating speed and a current movement speed of the piston corresponding to the position of the piston detected by the position detector. 2. The actuator device according to claim 1 , wherein the cylinder is (i) a hydraulic cylinder configured such that pressures of liquids of the pair of pressure chambers are controlled by the respective first and second actuators or (ii) a cylinder configured such that pressures of gases of the pair of pressure chambers are controlled by the respective first and second actuators. 3. The actuator device according to claim 1 , further comprising a rod including: a tip end connected to a treating part of a medical instrument; and a base end coupled to the piston. 4. A method of controlling an actuator device, the actuator device comprising: a cylinder including an internal space; a piston accommodated in the internal space and forming a pair of pressure chambers together with the cylinder, the piston being configured to move relative to the cylinder; a first actuator connected to one of the pair of pressure chambers and including a first fluid cylinder, a first electric motor, and a first linear motion mechanism; a second actuator connected to the other of the pair of pressure chambers and including a second fluid cylinder, a second electric motor, and a second linear motion mechanism; a position detector configured to detect a position of the piston relative to the cylinder; and a pressure detector configured to detect a pressure of any one of the pair of pressure chambers, the method comprising: controlling the first actuator such that the position detected by the position detector is made close to a target position; controlling the second actuator such that the pressure detected by the pressure detector is made close to a target pressure; when controlling the first actuator, calculating a target rotating speed of the first electric motor based on the target position and the position of the piston detected by the position detector; and controlling rotation of the first electric motor based on the target rotating speed and a current movement speed of the piston corresponding to the position of the piston detected by the position detector.