Wheel bearing apparatus

What is claimed is: 1. A wheel bearing apparatus comprising: an outer member integrally formed with a body mounting flange on its outer circumference, the body mounting flange adapted to be mounted on a knuckle of a suspension apparatus, the outer member inner circumference includes double row outer raceway surfaces; an inner member includes double row inner raceway surfaces, a wheel hub and at least one inner ring, the wheel hub is integrally formed with a wheel mounting flange on its one end, a cylindrical portion axially extends from the wheel mounting flange, the at least one inner ring is press-fit onto the cylindrical portion of the wheel hub via a predetermined interference, the at least one inner ring outer circumference is formed with one of the double row inner raceway surfaces that corresponds to one of the double row outer raceway surfaces of the outer member; double row rolling elements are freely rollably contained between the inner and outer raceway surfaces of the inner and outer members, via cages; a hardened ring-shaped gear member is mounted on an end of the cylindrical portion of the wheel hub, the gear member is formed with a gear portion on its outer circumference and with a splined portion on its inner circumference, the splined portion engages a hub-splined portion formed on the outer circumference of the cylindrical portion of the wheel hub; a contacting surface of the gear member and a contacting surface of the at least one inner ring that abut against each other are ground to provide a desired roughness on the contacting surfaces to enable close contact and frictional resistance between the contacting surfaces to reduce torque on the splined portion; and the at least one inner ring is axially immovably secured to the wheel hub under a condition where a predetermined amount of a bearing pre-stress is applied to the at least one inner ring, via the gear member. 2. The wheel bearing apparatus of claim 1 , wherein the surface roughness (Ra) of the contacting surface of the gear member contacting against the inner ring is set to 1.6 or less (Ra≦1.6). 3. The wheel bearing apparatus of claim 1 , wherein the inner rings are secured by a caulked portion formed by plastically deforming the end of the cylindrical portion of the wheel hub, and the caulked portion is kept as a non-hardened portion with a surface hardness after forging. 4. The wheel bearing apparatus of claim 3 , wherein a contacting width (W) between the gear member and the caulked portion is set to 1 mm or more. 5. The wheel bearing apparatus of claim 1 , wherein an external thread is formed on the end of the cylindrical portion of the wheel hub, and a securing nut is fastened on the external thread to secure the inner rings. 6. The wheel bearing apparatus of claim 5 , wherein a contacting width (W) between the gear member and the securing nut is set to 1 mm or more. 7. The wheel bearing apparatus of claim 1 , wherein the gear member is formed of steel including carbon of 0.15˜0.45% by weight (wt%), the gear member is hardened to its core by dip quenching, and the gear member has a surface hardness of 40 HRC or more. 8. The wheel bearing apparatus of claim 1 , wherein the gear member is formed of chrome molybdenum steel including Mo of 0.15˜0.3% by weight (wt%), a hardened layer is formed on a surface of the gear member by carburizing quenching, and the hardened layer has a surface hardness set to 40 HRC or more. 9. The wheel bearing apparatus of claim 1 , wherein a hardened layer having the surface hardness of 50˜64 HRC is formed on part of the hub-splined portion by high frequency induction hardening.