Patent ID: 7717525
Filing Date: 2010-05-18
Classification: B60B,F16C

Abstract:
1. A spindle and hub assembly comprising: a spindle, the spindle having a first end and a second end; a hub having an inboard end and an outboard end, a generally cylindrical opening in the hub extending between and through the inboard end and outboard end of the hub, the spindle extending through the opening in the hub with the inboard end of the hub being located adjacent the second end of the spindle and the outboard end of the hub being located adjacent the first end of the spindle, the opening in the hub having a first diameter located relatively nearer the inboard end of the hub than a second diameter, as measured in the axial direction, said second diameter being larger than the first diameter and being located relatively nearer the outboard end of the hub, than said first diameter as measured in the axial direction, a transitional portion of the opening in the hub between the first diameter and the second diameter forming a shoulder; a bearing arrangement mounted about the spindle and supporting the hub for rotation on the spindle, the bearing arrangement having a bearing component that has an inward surface that faces the inboard end of the hub and abuts the shoulder in the opening in the hub and an outward surface that faces the outboard end of the hub; an annulus having an opening therethrough and an outside diameter, the first end of the spindle extending through the opening in the annulus with the annulus directly engaging the first end of the spindle so that the annulus is supported on the first end of the spindle, the annulus having an inward surface that faces the outward surface of the bearing component and an outward surface that faces the outboard end of the hub, the outside diameter of the annulus and the second diameter of the opening in the hub being sized relative to each other such that the annulus moves relative to the hub and relatively towards the inboard end of the hub in the absence of the bearing component, the outside diameter of the annulus having a larger diameter than the first diameter of the opening in the hub such that the shoulder in the opening in the hub will engage the inward face of the annulus upon outward axial movement of the hub in the absence of the bearing component to prevent the annulus from axially moving past the shoulder along a direction toward the inboard end of the hub in the absence of the bearing component; and means separate from the annulus located at the first end of the spindle for securing the annulus on the spindle to prevent the spindle from axially moving relative to the annulus along the direction toward the inboard end of the hub; wherein the inward face of the annulus engages the outward surface of the bearing component, the means separate from the annulus located at first end of the spindle for securing the annulus on the spindle bears against the outward face of the annulus causing the inward face of the annulus to bear against the outward surface of the bearing component and secure the bearing component in place against the internal shoulder in the hub, the means separate from the annulus located at the first end of the spindle for securing the annulus on the spindle includes screw threads on the first end of the spindle and a nut, having complementary screw threads, screwed to the screw threads on the first end of the spindle, the first end of the spindle includes a flat portion and the opening through the annulus includes a complementary flat portion is in engagement with the flat portion of the free end of the spindle whereby the annulus does not rotate with respect to the spindle, and the means separate from the annulus located at the first end of the spindle for securing the annulus to the spindle includes an opening that extends through the flat portion and the centerline of the spindle, and a locking pin extending through the opening in the spindle secured to the spindle and the nut so as to prevent the nut from coming loose from the spindle.