A thrust bearing assembly includes a single-piece thrust plate and thrust shaft flange having a generally cylindrical body portion, a frustoconical body portion and a bore extending through the cylindrical body portion and the frustoconical body portion. The bore defines a first bore section and a s
A thrust bearing assembly includes a single-piece thrust plate and thrust shaft flange having a generally cylindrical body portion, a frustoconical body portion and a bore extending through the cylindrical body portion and the frustoconical body portion. The bore defines a first bore section and a second bore section. A lip extends between the first and second bore sections. The first bore section, the second bore section and the lip are configured to receive a thrust shaft and axial thrust forces transmitted therefrom. The thrust bearing assembly also includes a bearing assembly in operable communication with the single-piece thrust plate and thrust shaft flange. The bearing assembly supports rotation of the thrust shaft and includes a plurality of first rolling elements. The bearing assembly includes a bearing cage to retain the first rolling elements and a plurality of second rolling elements disposed between the bearing cage and the thrust shaft.
대표청구항▼
1. A thrust bearing assembly, comprising: a single-piece thrust plate and thrust shaft flange, comprising, a generally cylindrical body portion defining a rotating base surface and a lateral surface,a frustoconical body portion defining a frustoconical surface and a base surface,a bore extending thr
1. A thrust bearing assembly, comprising: a single-piece thrust plate and thrust shaft flange, comprising, a generally cylindrical body portion defining a rotating base surface and a lateral surface,a frustoconical body portion defining a frustoconical surface and a base surface,a bore extending through said cylindrical body portion and said frustoconical body portion, andsaid bore extending substantially perpendicular to said rotating base surface, said bore having a first bore section and a second bore section, said second bore section being adjacent said rotating base surface and having a smaller diameter than said first bore section, and a lip extending between said first and second bore sections, wherein said first bore section, said second bore section and said lip are configured to receive a thrust shaft and accommodate axial thrust forces transmitted from said thrust shaft;a bearing assembly in operable communication with said generally cylindrical body portion and supporting rotation of said thrust shaft, said bearing assembly comprising a plurality of first rolling elements and a bearing cage configured to retain said first rolling elements;a stationary plate having a passage extending therethrough complementary to said second bore section and through which said thrust shaft is received, said stationary plate engages said bearing assembly; anda plurality of second rolling elements disposed between said bearing cage and said thrust shaft and configured to support rotation of said bearing cage around said thrust shaft, the plurality of second rolling elements being cage-weight-supporting rolling elements that rollingly engage the bearing cage and the shaft, the bearing cage being spaced apart from the thrust shaft by the plurality of second rolling elements, the plurality of second rolling elements further configured to support rotation of the bearing cage around the thrust shaft and to support the weight of the bearing cage. 2. The rotating combination thrust plate and thrust shaft flange of claim 1, wherein said second rolling elements are needle bearings. 3. The thrust bearing assembly of claim 1, wherein said second rolling elements are retained in another cage. 4. The rotating combination thrust plate and thrust shaft flange of claim 1, wherein said bore extends substantially parallel with said lateral surface. 5. The rotating combination thrust plate and thrust shaft flange of claim 1, wherein said frustoconical body portion has a frustoconical surface which extends at an angle of about 230 degrees from said lateral surface. 6. The rotating combination thrust plate and thrust shaft flange of claim 1, wherein said rotating base surface directly engages said first rolling elements of said thrust bearing assembly. 7. The thrust bearing assembly of claim 1, wherein said first rolling elements comprise ball bearings. 8. The thrust bearing assembly of claim 1, wherein said stationary base surface directly engages said first rolling elements. 9. A thrust bearing assembly, comprising: a single-piece thrust plate and thrust shaft flange, comprising, a generally cylindrical body portion defining a rotating base surface and a lateral surface,a frustoconical body portion defining a frustoconical surface and a base surface,a bore extending through said cylindrical body portion and said frustoconical body portion,said bore extending substantially perpendicular to said rotating base surface, said bore having a first bore section and a second bore section, said second bore section being adjacent said rotating base surface and having a smaller diameter than said first bore section, and a lip extending between said first and second bore sections, wherein said first bore section, said second bore section and said lip are configured to receive a thrust shaft and accommodate axial thrust forces transmitted from said thrust shaft, andsaid thrust shaft configured in a horizontal position;a bearing assembly in operable communication with said generally cylindrical body portion and supporting rotation of said thrust shaft, said bearing assembly comprising a plurality of first rolling elements and a bearing cage configured to retain said first rolling elements;a stationary plate having a passage extending therethrough complementary to said second bore section and through which said thrust shaft is received, said stationary plate engages said bearing assembly; anda plurality of second rolling elements disposed between said bearing cage and said thrust shaft and configured to support rotation of said bearing cage around said thrust shaft, the plurality of second rolling elements being cage-weight-supporting rolling elements that rollingly engage the bearing cage and the shaft, the bearing cage being spaced apart from the thrust shaft by the plurality of second rolling elements, the plurality of second rolling elements further configured to support rotation of the bearing cage around the thrust shaft, to support a radially downward component of the weight of the bearing cage, and to support the weight of the bearing cage.
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