Valve device

The invention claimed is: 1. A valve device comprising: a ball valve having a ball face shaped in a convex spherical surface; and a valve seat having a seat face shaped in a concave spherical surface, the seat face being pressed onto the ball face, wherein the ball valve being rotated to open by communicating a valve opening defined in the ball valve and a seat opening defined in the valve seat with each other, given that a diameter of the valve opening is Φ 1 , given that a diameter of the seat opening is Φ 2 , given that a curvature radius of the ball face is R 1 , given that a curvature radius of the seat face is R 2 , a following relationship is satisfied: Φ 1 >Φ 2 ; R 1 <R 2 ; and the valve opening is an ellipse hole extending in a rotating direction of the ball valve; a contact ring is defined on a radially inner end of the seat face that contacts the ball face when the seat opening is closed, and the ellipse hole has an edge which is in local contact with a portion of the seat face, and a site of the edge is located on a radially outer side of the contact ring. 2. The valve device according to claim 1 , further comprising a rigid body that locks at least an outer end of the valve seat to suppress a deformation of the valve seat from expanding to an outer side in a radial direction. 3. The valve device according to claim 2 , wherein the valve seat has a seat opposite face opposite from the seat face, and the rigid body includes a tubular body that locks a cylindrical face of the outer end of the valve seat, and a ring plate that is in press-contact with the seat opposite face. 4. The valve device according to claim 3 , wherein an axial dimension of the tubular body is smaller than a thickness dimension of an outer circumferential edge of the valve seat. 5. The valve device according to claim 3 , wherein a friction coefficient between the ring plate and the valve seat is larger than a friction coefficient between the ball valve and the valve seat. 6. A valve device comprising: a ball valve having a ball face shaped in a convex spherical surface; and a valve seat having a seat face shaped in a concave spherical surface, the seat face being pressed onto the ball face, wherein the ball valve being rotated to open by communicating a valve opening-defined in the ball valve and a seat opening defined in the valve seat with each other, given that a diameter of the valve opening is Φ 1 , given that a diameter of the seat opening is Φ 2 , given that a curvature radius of the ball face is R 1 , given that a curvature radius of the seat face is R 2 , a following relationship is satisfied: Φ 1 >Φ 2 ; and R 1 <R 2 , the valve seat has a seat opposite face opposite from the seat face; a back pressure space is defined adjacent to the seat opposite face, fluid flowing into the valve device being guided to the back pressure space; when the valve is closed, only a radially inner side of the seat face is in contact with the ball face to define a contact ring at a site where the ball face and the seat face oppose to each other; an annular gap is defined between the ball valve and the valve seat, on an outer circumference side of the contact ring, fluid being able to flow into the annular gap when the valve is closed; and common fluid is guided into the annular gap and the back pressure space. 7. The valve device according to claim 6 , wherein a pressure-receiving projection area where fluid pressure is applied from the back pressure space to the seat opposite face is the same as a pressure-receiving projection area where fluid pressure is applied from the annular gap to the seat face. 8. A valve device comprising: a ball valve having a ball face shaped in a convex spherical surface; a valve seat having a seat face shaped in a concave spherical surface, the seat face being pressed onto the ball face; and a housing having an inlet that lets in fluid and an outlet that lets out fluid, wherein: the ball valve being rotated to open by communicating a valve opening-defined in the ball valve and a seat opening defined in the valve seat with each other; given that a diameter of the valve opening is Φ 1 ; given that a diameter of the seat opening is Φ 2 ; given that a curvature radius of the ball face is R 1 ; given that a curvature radius of the seat face is R 2 ; a following relationship is satisfied: Φ 1 >Φ 2 ; and R 1 ≤R 2 ; the ball valve is rotated in the housing, and is substantially cup-shaped; the ball valve is rotated to change a degree of communication between the inlet and the outlet; a center of a flow path guiding fluid from the inlet into the cup-shaped ball valve is defined as an inlet axis, and a center of a flow path guiding fluid from inside of the cup-shaped ball valve toward the outlet is defined as an outlet axis, the ball valve has an opening in the same direction as a rotational axis of the ball valve; and the rotational axis is provided at an obtuse angle relative to the outlet axis or the inlet axis. 9. The valve device according to claim 8 , wherein: the outlet is one of a plurality of outlets; and the housing includes a plurality of outlet passages leading to the respective outlets; and of the plurality of outlet passages, the outlet axis of at least the outlet passage having the largest diameter is provided at an obtuse angle relative to the rotational axis. 10. A valve device comprising: a ball valve having a ball face shaped in a convex spherical surface; a valve seat having a seat face shaped in a concave spherical surface, the seat face being pressed onto the ball face; a housing that houses the ball valve; a shaft passing through the housing, the shaft being configured to rotate integrally with the ball valve; a seal member that seals a clearance between the housing and the shaft; and a labyrinth that attenuates kinetic energy of fluid going toward the seal member in the housing, wherein the ball valve being rotated to open by communicating a valve opening-defined in the ball valve and a seat opening defined in the valve seat with each other, given that a diameter of the valve opening is Φ 1 , given that a diameter of the seat opening is Φ 2 , given that a curvature radius of the ball face is R 1 , given that a curvature radius of the seat face is R 2 , and a following relationship is satisfied: Φ 1 >Φ 2 ; and R 1 ≤R 2 . 11. The valve device according to claim 10 , wherein the labyrinth includes: a tubular portion protruding from an opening edge of an insertion hole for the shaft in the housing toward a valve chamber that houses the ball valve, the tubular portion surrounding an outer circumference of the shaft with a clearance; and a peripheral wall defined on the ball valve, the peripheral wall being radially opposed to at least one of an outer circumferential face or an inner circumferential face of the tubular portion across a clearance. 12. The valve device according to claim 11 , wherein the tubular portion has a stopper that limits a rotational range of the ball valve.