Valve device

What is claimed is: 1. A valve device comprising: a valve configured to rotate to open and close a fluid passage in which exhaust gas passes; an actuator configured to actuate the valve to open and close; a control unit configured to control an opening degree of the valve within a range between a full-close position and a full-open position by controlling actuation of the actuator; a return spring, constructed with a single spring, biasing the valve only in a valve-closing direction; and a mechanical stopper configured to control a rotating limit of the valve in the valve-closing direction, wherein the valve is defined to rotate on a plus side from the full-close position in a valve-opening direction and to rotate on a minus side from the full-close position in a direction opposite from the valve-opening direction, the mechanical stopper is configured to stop the valve at a stopper position which is set on the minus side from the full-close position, and a predetermined overshoot range is defined between the full-close position and the stopper position, the valve at the full-close position is oriented to be perpendicular to an inner wall of the fluid passage, the control unit is configured so that when an ignition switch is on, the valve is controlled within the range between the fill-open position and the full-close position, and the control unit is configured so that when the ignition switch is off, the valve is rotated toward the minus side only by a spring force of the return spring, and is stopped and positioned on the minus side. 2. The valve device according to claim 1 , wherein the actuator has a rotation angle sensor configured to detect the opening degree of the valve, the control unit is configured to conduct a feedback control to control the valve to have a target angle based on the opening degree detected by the rotation angle sensor, the valve is defined to have a maximum angle on the minus side from the full-close position as an undershoot angle when the valve is operated to the full-close position from the plus side by the feedback control, and the predetermined overshoot range is set by adding a margin angle to the undershoot angle. 3. The valve device according to claim 1 , further comprising: a seal ring mounted to an outer edge of the valve, wherein the valve has a dead zone in which the fluid passage is kept closed by the seal ring even when the opening degree of the valve is varied, and the stopper position is set within the dead zone. 4. The valve device according to claim 1 , wherein the actuator is an electric actuator having an electric motor configured to produce a rotation torque by being energized, and a gear reducer configured to amplify the rotation torque of the electric motor, and the mechanical stopper is formed by a contact section at which a final gear of the gear reducer and a housing holding the electric actuator contact with each other. 5. The valve device according to claim 1 , wherein the valve device is an exhaust gas recirculation unit configured to circulate a portion of exhaust gas emitted from an engine back to an intake side of the engine. 6. The valve device according to claim 1 , wherein the actuator stops being energized when the ignition switch is turned off to stop an engine, the mechanical stopper has a bump surface and a stopper lever which knocks the bump surface to stop the valve at the stopper position when the valve rotates toward the minus side from the full-close position, and a clearance degree between the bump surface and the stopper lever is equal to the predetermined overshoot range. 7. The valve device according to claim 6 , wherein when the actuator stops being energized, the valve rotates toward the minus side only by the spring force of the return spring, and stops at the stopper position, the valve is defined to have a maximum angle on the minus side from the full-close position as an undershoot angle when the valve is operated to the full-close position, the predetermined overshoot range is set by adding a margin angle to the undershoot angle, and a value of the predetermined overshoot range is set so that the stopper position falls within a dead zone in which the fluid passage is kept closed even when the opening degree of the valve is varied. 8. The valve device according to claim 1 , wherein the mechanical stopper has a bump surface and a stopper lever which contacts the bump surface to stop the valve at the stopper position when the valve rotates toward the minus side from the full-close position, and a clearance degree between the bump surface and the stopper lever is equal to the predetermined overshoot range. 9. The valve device according to claim 8 , wherein when the actuator stops being energized, the valve rotates toward the minus side only by the spring force of the return spring, and stops at the stopper position, the valve has an undershoot angle that is a maximum angle on the minus side from the full-close position when the valve is operated to the full-close position, the predetermined overshoot range is set by adding a margin angle to the undershoot angle, and a value of the predetermined overshoot range causes the stopper position to be within a dead zone in which the fluid passage is kept closed even when the opening degree of the valve is varied. 10. A valve device comprising: a valve configured to rotate to open and close a fluid passage in which exhaust gas passes; an actuator configured to actuate the valve to open and close; a control unit configured to control an opening degree of the valve within a range between a full-close position and a full-open position by controlling actuation of the actuator; a return mechanism configured so that the valve is biased only in a valve-closing direction throughout an extent that the valve can rotate; and a mechanical stopper configured to control a rotating limit of the valve in the valve-closing direction, wherein the valve is defined to rotate on a plus side from the full-close position in a valve-opening direction and to rotate on a minus side from the full-close position in a direction opposite from the valve-opening direction, the mechanical stopper is configured to stop the valve at a stopper position which is set on the minus side from the full-close position, and a predetermined overshoot range is defined between the full-close position and the stopper position, the valve at the full-close position is oriented to be perpendicular to an inner wall of the fluid passage, the control unit is configured so that when an ignition switch is on, the valve is controlled within the range between the full-open position and the full-close position, and the control unit is configured so that when the ignition switch is off, the valve is rotated toward the minus side only by the return mechanism and is stopped and positioned on the minus side.