A cam roller for a pod joint, comprising an inner rolling path and an outer ring unit, wherein a rolling path for the rolling on a bell housing section is arranged on an outer side of the outer ring unit, a plurality of rolling elements, wherein the plurality of rolling elements are arranged between the inner rolling path and the outer ring unit, and a cage device, wherein the plurality of rolling elements are arranged within the cage device, wherein the cage device includes at least one separating point in circumferential direction.

A ball bearing includes an inner ring; an outer ring placed outside of the inner ring; a plurality of rolling bodies intervening between the inner ring and the outer ring; and an annular cage including pockets rotatably holding the rolling bodies in a circumferential direction at intervals determining a rotation axis to be a center. The cage comprises a resin composition comprising a polyetherketone-based resin, graphite, and a carbon fiber. The resin composition comprises the polyetherketone-based resin in an amount of 60% by weight or more and 80% by weight or less, the graphite in an amount of 10% by weight or more and 30% by weight or less, and the carbon fiber in an amount of 5% by weight or more and 20% by weight or less when the entire resin composition is determined to be 100% by weight.

A resin reservoir capable of storing the melted resin is provided in the pillar radially facing the pillar provided with the resin injection gate having a cross-sectional area larger than those of the other resin injection gates among a plurality of the pillars not provided with the resin injection gate or the pillar in the vicinity of the pillar facing the pillar provided with the resin injection gate having a cross-sectional area larger than those of the other resin injection gates among the plurality of the pillars not provided with the resin injection gate. A cross-sectional area of a communicating portion of the resin reservoir which communicates with the pillar is smaller than the smallest of cross-sectional areas of a plurality of the resin injection gates.

The resin injection gate is disposed at the pillar part. When the bearing cage is divided into first and second regions by an imaginary line connecting the resin injection gate and a weld to be formed at a position radially facing the resin injection gate, a resin reservoir that can store therein the melted resin is formed at the pillar part in only one of the regions. A circumferential distance between the resin reservoir and the weld is smaller than a circumferential distance between the resin reservoir and the resin injection gate. A cross-sectional area of a communicating part of the resin reservoir, which is configured to communicate with the pillar part, is equal to or less than a quarter of a cross-sectional area of the resin injection gate.

A resin reservoir capable of storing the melted resin is provided in the pillar radially facing the pillar provided with the resin injection gate having a cross-sectional area larger than those of the other resin injection gates among a plurality of the pillars not provided with the resin injection gate or the pillar in the vicinity of the pillar facing the pillar provided with the resin injection gate having a cross-sectional area larger than those of the other resin injection gates among the plurality of the pillars not provided with the resin injection gate. A cross-sectional area of a communicating portion of the resin reservoir which communicates with the pillar is smaller than the smallest of cross-sectional areas of a plurality of the resin injection gates.

A cam roller for a pod joint, comprising an inner rolling path and an outer ring unit, wherein a rolling path for the rolling on a bell housing section is arranged on an outer side of the outer ring unit, a plurality of rolling elements, wherein the plurality of rolling elements are arranged between the inner rolling path and the outer ring unit, and a cage device, wherein the plurality of rolling elements are arranged within the cage device, wherein the cage device includes at least one separating point in circumferential direction.

A cage for a double row roller bearing assembly is disclosed. The cage includes an annular rim and two pluralities of webs. A first plurality of roller pockets are defined between adjacent ones of a first plurality of webs. Each of the webs of the first plurality of webs includes two first prongs and a first slot defined between the two first prongs. A first partial cylindrical guide surface is arranged on each first lateral surface of the first plurality of webs, and a first undercut is defined between each of the first lateral surfaces and the annular rim. Two adjacent ones of the first prongs are elastically deformable away from one another for insertion of a roller. A second plurality of webs are also provided with the same features as the first plurality of webs.

A cage for a double row roller bearing assembly is disclosed. The cage includes an annular rim and two pluralities of webs. A first plurality of roller pockets are defined between adjacent ones of a first plurality of webs. Each of the webs of the first plurality of webs includes two first prongs and a first slot defined between the two first prongs. A first partial cylindrical guide surface is arranged on each first lateral surface of the first plurality of webs, and a first undercut is defined between each of the first lateral surfaces and the annular rim. Two adjacent ones of the first prongs are elastically deformable away from one another for insertion of a roller. A second plurality of webs are also provided with the same features as the first plurality of webs.