Contoured integrated seat for ball valve

The invention claimed is: 1. A valve comprising: a body; and a flow control assembly inside the body, the flow control assembly including: a ball; a seat installed on the ball; and a counters eat; wherein the ball is rotatable between an open position and a closed position to control flow through the body, the seat and the counterseat include mating surfaces that engage one another when the ball is in the closed position such that the seat seals against the counterseat within the body along the mating surfaces, the mating surface of the counterseat is a concave surface, the mating surface of the seat is a convex surface, at least one of the mating surfaces has a toroidal contour, the flow control assembly also includes a cap installed on the ball, and the cap is shaped to operate as a cam to mechanically retract the seat from the counterseat during rotation of the ball from the closed position to the open position. 2. The valve of claim 1 , wherein the concave surface of the counterseat has a first radius of curvature, and the convex surface of the seat has a second radius of curvature that is less than the first radius of curvature. 3. The valve of claim 1 , wherein the convex surface has the toroidal contour and the concave surface has a spherical contour. 4. The valve of claim 1 , wherein the concave surface has the toroidal contour and the convex surface has a spherical contour. 5. The valve of claim 1 , wherein the seat is installed on the ball in a manner that permits radial movement of the seat with respect to the ball inside the body. 6. The valve of claim 5 , wherein the flow control assembly is configured to allow pressurized fluid in the body to enter a region between the seat and the ball such that a net force on the seat from the pressurized fluid pushes the seat against the counterseat when the ball is in the closed position. 7. The valve of claim 5 , wherein the counterseat is installed in the body in a manner that permits radial movement of the counterseat with respect to the ball inside the body. 8. The valve of claim 7 , wherein the body and the counterseat are configured to allow pressurized fluid in the body to enter a region between the body and the counterseat such that a net force on the counterseat from the pressurized fluid pushes the counterseat against the seat when the ball is in the closed position. 9. The valve of claim 1 , wherein the flow control assembly includes: an additional seat installed on the ball; and an additional counterseat; wherein the additional seat and the additional counterseat include mating surfaces that engage one another when the ball is in the closed position such that the additional seat seals against the additional counterseat within the body along the mating surfaces of the additional seat and the additional counterseat, the mating surface of the additional counterseat is a concave surface, and the mating surface of the additional seat is a convex surface having a toroidal contour. 10. The valve of claim 9 , wherein the seat and the additional seat are installed on opposite sides of the ball. 11. The valve of claim 9 , wherein the seat and the additional seat are identical, and the counterseat and the additional counterseat are identical. 12. A valve comprising: a body; and a flow control assembly inside the body, the flow control assembly including: a ball; a seat installed on the ball; and a counterseat installed within the body; wherein the ball is rotatable between an open position and a closed position to control flow through the body, the seat and the counterseat include annular shapes having mating sealing surfaces that engage one another when the ball is in the closed position such that the seat seals against the counterseat within the body along the mating sealing surfaces, the mating sealing surface of the counterseat is a spherical concave sealing surface having a spherical contour with a first radius of curvature, the mating sealing surface of the seat is a toroidal convex sealing surface having a toroidal contour with a second radius of curvature that is less than the first radius of curvature such that, when the ball is in the closed position, the toroidal convex sealing surface of the seat curves away from a contact area between the mating sealing surfaces of the seat and counters eat at a greater rate than does the spherical concave sealing surface of the counterseat, and wherein the toroidal contour of the toroidal convex sealing surface is defined by a toroid formed by rotating a circle having a center and a radius about an axis, the spherical contour of the spherical concave sealing surface is defined by a sphere having a center along the axis and a radius, the radius of the circle is the second radius of curvature of the toroidal contour of the toroidal convex sealing surface, and the radius of the sphere is the first radius of curvature of the spherical contour of the spherical concave sealing surface. 13. The valve of claim 12 , wherein the seat is spring-biased toward the counterseat. 14. The valve of claim 13 , wherein the counters eat is spring-biased toward the seat. 15. The valve of claim 12 , wherein the seat is a metal seat. 16. The valve of claim 15 , wherein the counterseat is a metal counters eat. 17. A method comprising: receiving fluid in a ball valve disposed in a pipeline, the ball valve including a ball carrying a seat inside a hollow valve body, wherein the ball is rotatable with the seat between an open position and a closed position to control flow through the hollow valve body; rotating the ball to the closed position; and with the ball in the closed position, pushing a toroidal convex sealing surface of the seat away from the ball and against a spherical concave sealing surface of a counterseat within the hollow valve body such that the seat seals against the counterseat and prevents flow through the hollow valve body, wherein the toroidal convex sealing surface is defined by a toroid formed by rotating a circle having a center and a radius about an axis, the spherical concave sealing surface is defined by a sphere having a center along the axis and a radius, the radius of the circle is a radius of curvature of the toroidal convex sealing surface, the radius of the sphere is a radius of curvature of the spherical concave sealing surface, and the radius of curvature of the spherical concave sealing surface of the counterseat is greater than the radius of curvature of the toroidal convex sealing surface of the seat carried by the ball. 18. The method of claim 17 , comprising: rotating the ball from the closed position to the open position; and during rotation of the ball from the closed position to the open position, using a cap installed on the ball as a cam to mechanically retract the seat from the counterseat. 19. The method of claim 17 , wherein pushing the toroidal convex sealing surface of the seat against the spherical concave sealing surface of the counterseat within the hollow valve body includes receiving pressurized fluid between the seat and the ball such that the pressurized fluid causes a net force on the seat that is directed toward the counterseat.