Abstract:
An automotive hub assembly, which carries a brake disk, has a hub provided with a spindle which rotates in a housing on a double row antifriction bearing having its raceways oriented obliquely to the axis of rotation so that the bearing accommodates both radial and axial loads. The bearing is set to a condition of preload so no free motion exists in it. The hub also has a flange at one end of its spindle, and the flange is machined on its face that is presented away from the housing to provide a machined mounting surface against which the brake disk is installed. The machining occurs after the hub assembly is assembled. To this end, the housing of the hub assembly is held fast while the hub is rotated on the bearing. With the hub rotating, a cutting tool is moved across the face of the flange, and it produces the machined mounting surface which is perpendicular to the axis of the bearing. The machined mounting surface has essentially no runout, so that the brake disk acquires no runout from the hub assembly.
Abstract:
A sensor assembly. A sensor assembly 34 that has a sensing element 26 is mountable in a housing 5. The housing has an inner surface 12, an outer surface 14, a bore 16 disposed there through and further has a sensed object 24 positioned across a gap from the sensing element 26. The sensor assembly 34 comprises a sensor body 35 having a first portion 36 and a second portion 38, the first portion 36 and the second portion 38 being positioned within the bore 16. The second portion 38 positions the sensing element 26 at an end of the second portion 38. The sensor assembly 34 further comprises an anti-corrosion member 56 positioned within the bore 16. Additionally, the sensor assembly 34 comprises a retaining member 58 removably fastened to the first portion 36 wherein the retaining member 58 such that the anti-corrosion member 56 isolates the sensing element 26 from the outer surface 14 to prevent contaminants from contacting the sensing element 26.
Abstract:
An automotive hub assembly, which carries a brake disk, has a hub provided with a spindle which rotates in a housing on a double row antifriction bearing having its raceways oriented obliquely to the axis of rotation so that the bearing accommodates both radial and axial loads. The bearing is set to a condition of preload so no free motion exists in it. The hub also has a flange at one end of its spindle, and the flange is machined on its face that is presented away from the housing to provide a machined mounting surface against which the brake disk is installed. The machining occurs after the hub assembly is assembled. To this end, the housing of the hub assembly is held fast while the hub is rotated on the bearing. With the hub rotating, a cutting tool is moved across the face of the flange, and it produces the machined mounting surface which is perpendicular to the axis of the bearing. The machined mounting surface has essentially no runout, so that the brake disk acquires no runout from the hub assembly.