Rankine cycle system which restrains over-speed of a turbine

The invention claimed is: 1. A Rankine cycle system, comprising: a boiler that boils a liquid-phase heat medium by waste heat of an internal combustion engine to change the liquid-phase heat medium into a gas-phase heat medium; a superheater that superheats the gas-phase heat medium discharged from the boiler by heat exchange with exhaust gas of the internal combustion engine; a turbine that rotates by receiving supply of the gas-phase heat medium that passed through the superheater; a condenser that condenses the gas-phase heat medium that passed through the turbine and returns the gas-phase heat medium to the liquid-phase heat medium; a control valve that is provided between the turbine and the condenser; a power transmission pathway that transmits rotation of the turbine to an output shaft of the internal combustion engine; a clutch mechanism that connects or disconnects the power transmission pathway; a controller that is configured to operate the control valve in a closing direction, when the power transmission pathway is disconnected by an action of the clutch mechanism; a bypass path that branches from between the boiler and the superheater to join into between the control valve and the condenser; and a bypass valve that is provided in the bypass path, wherein the controller is configured to open the bypass valve when the controller operates the control valve in the closing direction. 2. The Rankine cycle system according to claim 1 , wherein the clutch mechanism is configured so that the power transmission pathway is disconnected when an engine speed of the internal combustion engine exceeds an engine speed threshold value. 3. The Rankine cycle system according to claim 1 , further comprising: a turbine rotation sensor that acquires a rotation speed of the turbine, wherein the controller is configured to adjust an opening degree of the control valve so that the rotation speed of the turbine comes close to a turbine rotation speed threshold value, when the power transmission pathway is disconnected by the action of the clutch mechanism. 4. The Rankine cycle system according to claim 1 , wherein the controller is configured to calculate an output of the turbine from an inlet pressure that is a steam pressure of a gas-phase heat medium at an inlet side of the turbine and an outlet pressure that is a steam pressure of the gas-phase heat medium at an outlet side of the turbine, calculate a fluid friction resistance by blades of the turbine from the outlet pressure, and operate the control valve so that a ratio of the fluid friction resistance to the output of the turbine comes close to a predetermined target ratio when the power transmission pathway is disconnected by the action of the clutch mechanism. 5. A Rankine cycle system, comprising: a boiler that boils a liquid-phase heat medium by waste heat of an internal combustion engine to change the liquid-phase heat medium into a gas-phase heat medium; a superheater that superheats the gas-phase heat medium discharged from the boiler by heat exchange with exhaust gas of the internal combustion engine; a turbine that rotates by receiving supply of the gas-phase heat medium that passed through the superheater; a condenser that condenses the gas-phase heat medium that passed through the turbine and returns the gas-phase heat medium to the liquid-phase heat medium; a control valve that is provided between the turbine and the condenser; a power transmission pathway that transmits rotation of the turbine to an output shaft of the internal combustion engine; a clutch mechanism that connects or disconnects the power transmission pathway; and a controller that is configured to operate the control valve in a closing direction, when the power transmission pathway is disconnected by an action of the clutch mechanism, wherein the controller is configured to calculate an output of the turbine from an inlet pressure that is a steam pressure of a gas-phase heat medium at an inlet side of the turbine and an outlet pressure that is a steam pressure of the gas-phase heat medium at an outlet side of the turbine, calculate a fluid friction resistance by blades of the turbine from the outlet pressure, and operate the control valve so that a ratio of the fluid friction resistance to the output of the turbine comes close to a predetermined target ratio when the power transmission pathway is disconnected by the action of the clutch mechanism. 6. The Rankine cycle system according to claim 5 , wherein the clutch mechanism is configured so that the power transmission pathway is disconnected when an engine speed of the internal combustion engine exceeds an engine speed threshold value.