Patent ID: 7281424
Filing Date: 2007-10-16
Classification: B60B,F16C,G01P

Abstract:
1. A rotation-support apparatus with rotation sensor device for drive-wheel to be connected to a suspension, comprising: a knuckle being part of the suspension and having a support hole and an installation hole formed therein, an outer race having axially outside and inside end surfaces and an inner peripheral surface formed with a double row of outer-ring raceways therein, a cylindrical surface section and a chamfered section on the inner peripheral edge of the axially inside end, and fastened to and supported by the knuckle with at least part of the outer race inserted into the support hole, a hub having an outer peripheral surface formed with a flange on the axially outside end, to which a vehicle wheel is fastened for supporting, and with a first inner-ring raceway formed directly or by way of a separate inner race in an axially middle section, and a small-diameter stepped section formed on the axially inside end and a spline hole formed in the center, an inner race having an outer peripheral surface formed with a second inner-ring raceway and fitted onto the small-diameter section of the hub, a plurality of rolling elements located between each of the rows of outer-ring raceways and the first and second inner-ring raceways, a constant velocity joint having a spline shaft in an axial outside half thereof and fastened to the hub by a spline joint between the spline shaft and the spline hole such that torque can be transmitted to the hub, and a portion protruding from an axial inside end of the spline hole, wherein the portion protruding from both the axial inside end of the spline hole and the axially inside end of the inner race, comprises at least a first cylindrical outer diameter portion which is adjacent to the axial inside end of the spline hole, a second cylindrical outer diameter portion which is located axially inward of the first cylindrical outer diameter portion and has a larger diameter than the first cylindrical outer diameter portion and has a smaller diameter than the inner peripheral diameter of the outer race at the axially inside end, and a bell-shaped outer diameter portion which is located axially inward of the second cylindrical outer diameter portion, the constant velocity joint being provided with a gap between the second cylindrical outer diameter portion of the constant velocity joint and the knuckle, an encoder fastened to and supported by the axially inside section of the inner race, and having characteristics on the axially inside surface alternately change in the circumferential direction, a rotation-detection sensor having a portion projecting radially inwardly from the support hole and having a radially inside end portion, a detection section being formed on the portion projecting radially inwardly, which detection section faces the axially inside surface of the encoder, a seal ring located further axially inside than the rotation-detection sensor and having a base end portion which is attached to the support hole of the knuckle and a seal lip which is in sliding contact with the outer periphery of the second cylindrical outer diameter portion to cover the gap between the knuckle and the second cylindrical outer diameter portion of the constant-velocity joint, the rotation-detection sensor being inserted into the installation hole in the knuckle so as to be supported by part of the knuckle located further inward in the axial direction than the axially inside end surface of the outer race, the projecting portion of the rotation detection sensor being located radially outside of the first cylindrical outer diameter portion and not axially overlapping with the second cylindrical outer diameter portion, the radially inside end portion of the rotation detection sensor being located radially inward of the axially inside end of the inner peripheral surface of the outer race, and the encoder having an outer peripheral edge extends to the inner cylindrical surface section of the outer race that is further outward in the axial direction than the chamfered section of the outer race, and comes close to and faces the inner peripheral surface of the outer race so as to form a labyrinth seal between the outer race and the encoder.