Hydraulic forceps system

The invention claimed is: 1. A hydraulic forceps system comprising: robotic forceps including a gripper, a first piston coupled to the gripper, a first cylinder accommodating the first piston and forming a first pressure chamber together with the first piston, the first pressure chamber being filled with a hydraulic fluid, a second piston, a second cylinder accommodating the second piston and forming a second pressure chamber together with the second piston, the second pressure chamber being filled with the hydraulic fluid, a communication passage through which the first pressure chamber and the second pressure chamber communicate with each other, and a motor that drives the second piston via a linear motion mechanism; a position sensor used for detecting a position of the second piston; and a control device that controls the motor based on a command position for the first piston, wherein the control device includes: an observer that derives an estimated position of the first piston based on the position of the second piston detected by using the position sensor; and a position controller that derives a target rotational speed of the motor based on a deviation between the estimated position of the first piston and the command position. 2. The hydraulic forceps system according to claim 1 , wherein the position sensor is a rotary encoder that detects a rotational displacement of the motor and converts the rotational displacement into the position of the second piston. 3. The hydraulic forceps system according to claim 2 , further comprising a pressure sensor that detects a pressure of the hydraulic fluid, wherein the observer derives the estimated position of the first piston based on the pressure of the hydraulic fluid detected by the pressure sensor and the position of the second piston detected by using the position sensor. 4. The hydraulic forceps system according to claim 3 , wherein the observer: derives an estimated position of the second piston and an estimated pressure of the hydraulic fluid; calculates an estimated error based on a deviation between the pressure of the hydraulic fluid detected by the pressure sensor and the estimated pressure of the hydraulic fluid and a deviation between the position of the second piston detected by using the position sensor and the estimated position of the second piston; and feeds back the calculated estimated error to the deriving of the estimated position of the first piston. 5. The hydraulic forceps system according to claim 1 , further comprising a pressure sensor that detects a pressure of the hydraulic fluid, wherein the observer derives the estimated position of the first piston based on the pressure of the hydraulic fluid detected by the pressure sensor and the position of the second piston detected by using the position sensor. 6. The hydraulic forceps system according to claim 5 , wherein the observer: derives an estimated position of the second piston and an estimated pressure of the hydraulic fluid; calculates an estimated error based on a deviation between the pressure of the hydraulic fluid detected by the pressure sensor and the estimated pressure of the hydraulic fluid and a deviation between the position of the second piston detected by using the position sensor and the estimated position of the second piston; and feeds back the calculated estimated error to the deriving of the estimated position of the first piston.