Patent ID: 8382380

Claim:
A tapered roller bearing comprising an outer ring, an inner ring, a plurality of tapered rollers disposed between said outer ring and said inner ring, and a retainer made of an engineering plastic and disposed between said outer ring and said inner ring for retaining said tapered rollers so as to be circumferentially spaced apart from each other, said retainer comprising two axially spaced apart annular portions, and a plurality of crossbars extending between said two annular portions so as to be circumferentially spaced apart from each other, each pair of adjacent crossbars defining, in cooperation with said two annular portions, a pocket in which one of said tapered rollers is received, wherein said crossbars have radially outer surfaces defining a first conical surface and radially inner surfaces defining a second conical surface extending parallel to said first conical surface, wherein said first conical surface has a maximum diameter such that said retainer is adjacent to but out of contact with said outer ring, wherein an angle between said first conical surface and an axis of the bearing is greater than a central angle of the bearing, said central angle of the bearing being constituted by an angle of a pitch cone of said tapered rollers with respect to the axis of the bearing, wherein said inner ring is formed with a raceway and includes a small-diameter flange at a small-diameter end of said raceway and a large-diameter flange at a large-diameter end of said raceway, wherein said small-diameter flange has a radially outer inclined surface that is inclined radially outwardly toward said large-diameter flange so as to form an angle with respect to the axis of said bearing that is equal to or greater than a central angle of said inner ring, said central angle of said inner ring being constituted by an inclination angle of said raceway of said inner ring with respect to the axis of the bearing, wherein a circle inscribed in small-diameter end surfaces of said tapered rollers has a diameter d 3 that satisfies a relation 0.975×D 2 <d 3 <1×D 2 relative to a maximum outer diameter D 2 of said small-diameter flange, and wherein said crossbars have axially extending side surfaces each formed with a cutout configured such that one of a pair of molds, which are configured to form said retainer and to be separated from each other in a direction axially of said retainer, can be inserted therein.