Eccentric valve

The invention claimed is: 1. An eccentric valve comprising: a valve seat including a valve hole and a seat surface formed at an edge of the valve hole; a valve element formed with a seal surface on an outer periphery corresponding to the seat surface; a rotary shaft integrally provided with the valve element to rotate the valve element, and the rotary shaft having a central axis extending in parallel to a radial direction of the valve element, the central axis of the rotary shaft being positioned eccentrically from a center of the valve hole in another radial direction of the valve hole, and the seal surface being positioned eccentrically from the central axis of the rotary shaft toward an extending direction of a central axis of the valve element, wherein the eccentric valve further comprises: a drive mechanism configured to generate a drive force to rotate the rotary shaft in a valve opening direction; a drive force receiving part integrally provided with the rotary shaft and configured to receive the drive force; a bearing placed in a position between the valve element and the drive force receiving part in a direction of the central axis of the rotary shaft to support the rotary shaft; and a return spring configured to generate a return spring force to rotate the rotary shaft in a valve closing direction, wherein, during non-operation of the drive mechanism, the eccentric valve generates a separating-direction urging force to cause the rotary shaft to incline about the bearing serving as a fulcrum and urge the valve element in a direction away from the valve seat, the separating-direction urging force being a force caused by the return spring force and acting in a direction perpendicular to a central axis of the bearing, either the valve element or the valve seat is provided with a sealing member to seal between the valve element and the valve seat during non-operation of the drive mechanism, the sealing member includes a deformable portion having a leading end that comes into contact with the valve element or the valve seat during non-operation of the drive mechanism and that is deformed when pressed by the valve element or a valve seat during operation of the drive mechanism, and a deformation amount of the deformable portion during operation of the drive mechanism is smaller than a deformation amount of the deformable portion when plastically deformed. 2. The eccentric valve according to claim 1 , wherein when the drive mechanism is to be switched from an operation state to a non-operation state, the drive mechanism is switched to the non-operation state after a pressure on the valve element on a side facing the valve seat, reaches a predetermined negative pressure. 3. The eccentric valve according to claim 1 , wherein the eccentric valve is configured to perform a control mode during operation of the drive mechanism, the control mode including a pressure-regulating mode for controlling an open area of the valve hole and a sealing control mode for controlling rotation of the valve element near a fully-closed position of the valve element. 4. The eccentric valve according to claim 3 , wherein a rotation speed of the valve element in the sealing control mode is slower than a rotation speed of the valve element in the pressure-regulating mode. 5. The eccentric valve according to claim 3 , wherein the valve element and the sealing member in the pressure-regulating mode are in a non-contact state with each other. 6. The eccentric valve according to claim 3 , wherein the eccentric valve is provided with a passage through which air in a fuel cell system flows, and when the fuel cell system drives an air pump to control a flow rate of the air in response to a regenerative brake request, an opening degree of the valve element is maintained at an opening degree within an opening degree range determined in the sealing control mode.