Wheel bearing device with a clearance formed between the inner race and the hub wheel

The invention claimed is: 1. A wheel bearing device comprising: a hub wheel comprising: a wheel attachment flange integrally provided at one end portion of the hub wheel; and a smaller-diameter step portion extending in an axial direction from the wheel attachment flange via a shoulder portion, and a wheel bearing press-fitted onto the smaller-diameter step portion of the hub wheel with a predetermined tightening margin, the wheel bearing comprising: an outer member including double-row arcuate outer rolling surfaces formed integrally on an inner periphery of the outer member; a pair of inner races, each of the inner races including an arcuate inner rolling surface opposed to the double-row outer rolling surfaces, and the arcuate inner rolling surfaces being disposed on an outer periphery of the respective inner race; double-row balls housed between both the rolling surfaces of the inner races and the outer member; and seals mounted into opening portions of an annular space formed between the outer member and the inner race, the pair of inner races having smaller-end surfaces which abut against each other to constitute a double-row angular bearing, wherein: the pair of inner races comprise at least one inner race on an outboard side, the at least one inner race being provided with an extended portion extending in an axial direction from a larger-diameter side of the inner rolling surface of the at least one inner race; the at least one inner race has a uniform thickness entirely along the axial direction of the hub wheel; a corner portion formed by a shoulder portion of the hub wheel and the smaller-diameter step portion of the hub wheel is constituted by a composite recessed curved surface including a recessed curved surface on a shoulder portion side, a recessed curved surface on a smaller-diameter step portion side, and a tangential line connecting the recessed curved surfaces, and the tangential line constitutes a tapered surface that is gradually reduced in diameter from the recessed curved surface on the shoulder portion side toward the recessed curved surface on the smaller-diameter step portion side; a clearance is formed between the at least one inner race and the hub wheel such that the at least one inner race is out of contact with the hub wheel at a position where an action line intersects with the hub wheel, the action line being a contact angle of the balls on the outboard side with the at least one inner race, with a large-diameter side radially inner surface of the at least one inner race being formed as a curved surface on an opposite side of the at least one inner race from the inner rolling surface of the at least one inner race; Rb <Ra <Rc, where Ra is a maximum curvature radius of a virtual arc having a first convergence point on an outer diameter end of the recessed curved surface on the shoulder portion side of the hub wheel, and a second convergence point on an extended line of the smaller-diameter step portion of the hub wheel toward the shoulder portion side, the curvature radius of the virtual arc being constant, Rb is a curvature radius of the recessed curved surface on the shoulder portion side, and Rc is a curvature radius of the recessed curved surface on the smaller-diameter step portion side; the curvature radius Rc is twice or more as large as the curvature radius Rb; a length of the tangential line is longer than an arc-length of the recessed curved surface on the shoulder portion side, and an axial dimension La of the corner portion of the hub wheel is 1.5 times or more as large as a radial dimension Lr of the corner portion of the hub wheel; and a distance between the tangential line and a center of the virtual arc is less than a distance between the virtual arc and the center of the virtual arc. 2. The wheel bearing device of claim 1 , wherein the at least one inner race on the outboard side is formed of a pipe material by a cold rolling process. 3. The wheel bearing device of claim 1 , wherein a cone-shaped recessed part formed by a forging process in an end portion on an outboard side of the hub wheel is provided such that a thickness of the hub wheel at the corner portion is uniform. 4. The wheel bearing device according to claim 1 , wherein the at least one inner race has an inner diameter section on a radially inner surface, the inner diameter section having a curvature radius, and wherein the at least one inner race is configured such that a center position of the curvature radius of the inner diameter section is substantially the same as a center position of a curvature radius of the balls on the outboard side.