Fuel injection valve

The invention claimed is: 1. A fuel injection valve, comprising: a valve housing having an injection hole injecting a fuel into an internal combustion engine and a valve seat surface tapering toward a downstream side on an upstream side with respect to the injection hole; a valve component which is accommodated in the valve housing, and is coaxially separated from or seated on the valve seat surface for valve opening or valve closing to allow intermittent fuel injection from the injection hole; and an elastic component biasing the valve component toward the valve seat surface, wherein the valve component includes a cylindrical portion and a tip end, the tip end includes: an inner convex surface curved in a partial spherical shape with a predetermined first curvature radius, an outer convex surface that is provided continuously to a valve peripheral surface of the cylindrical portion and further continuously to an outer peripheral side of the inner convex surface, the outer convex surface curved in a partial spherical shape having a constant second curvature radius smaller than the inner convex surface, a boundary portion between the inner convex surface and the outer convex surface protrudes toward the valve seat surface, and the constant second curvature radius of the outer convex surface extends continuously between the cylindrical portion and the boundary portion; and the tip end of the valve component is able to be seated on the valve seat surface only at the boundary portion. 2. The fuel injection valve according to claim 1 , wherein an outer peripheral tangent line, which extends through the boundary portion, to the outer convex surface is defined on a longitudinal section of the valve component, an outer peripheral side angle formed by a valve outer peripheral surface of the valve component and the outer peripheral tangent line is defined on the longitudinal section of the valve component, and the outer peripheral side angle is set within a range from 125° to 130°. 3. The fuel injection valve according to claim 2 , wherein an inner peripheral tangent line, which extends through the boundary portion, to the inner convex surface is defined on the longitudinal section of the valve component, an inner peripheral side angle formed by the valve outer peripheral surface of the valve component and the inner peripheral tangent line is defined on the longitudinal section of the valve component, and an angular difference between the inner peripheral side angle and the outer peripheral side angle is set within a range from 4° to 10°. 4. The fuel injection valve according to claim 1 , wherein a dynamic contact pressure, which is generated between the boundary portion and the valve seat surface during valve closing operation in which the boundary portion collides with the valve seat surface, is controlled to 1000 MPa or less. 5. The fuel injection valve according to claim 1 , wherein the outer convex surface is continued from a valve outer peripheral surface of the valve component in a bending manner. 6. The fuel injection valve according to claim 1 , wherein the injection hole injects fuel into an intake port of the internal combustion engine. 7. The fuel injection valve according to claim 1 , wherein the valve seat surface is in a curved surface shape that tapers toward a downstream side of the fuel passage at a taper rate decreasing toward the downstream side. 8. The fuel injection valve according to claim 1 , wherein the valve seat surface is in a curved surface shape that tapers toward a downstream side of the fuel passage at a taper rate increasing toward the downstream side. 9. The fuel injection valve according to claim 1 , wherein the boundary portion has a protruding shape, which is formed by the outer convex surface and the inner convex surface with the outer convex surface having the smaller second curvature radius smaller than the inner convex surface such that the curvature radius changes at the boundary portion; and the protruding shape protrudes toward the valve seat surface.