A roller bearing comprising an inner ring, an outer ring, and a bearing cage positioned between the inner ring and the outer ring. The bearing cage includes a spine and a plurality of pins disposed one side of the spine that are coplanar or offset with a plurality of pins disposed on an opposite sid
A roller bearing comprising an inner ring, an outer ring, and a bearing cage positioned between the inner ring and the outer ring. The bearing cage includes a spine and a plurality of pins disposed one side of the spine that are coplanar or offset with a plurality of pins disposed on an opposite side of the spine. A roller is rotationally coupled to each pin such that each roller is coplanar or offset with another roller on the opposite side of the spine.
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1. A roller bearing, comprising: an inner ring;an outer ring;a bearing cage positioned between the inner ring and the outer ring, wherein the bearing cage includes a spine and a plurality of pins disposed one side of the spine that are coplanar with a plurality of pins disposed on an opposite side o
1. A roller bearing, comprising: an inner ring;an outer ring;a bearing cage positioned between the inner ring and the outer ring, wherein the bearing cage includes a spine and a plurality of pins disposed one side of the spine that are coplanar with a plurality of pins disposed on an opposite side of the spine, wherein the pins are part of a pin component that connects the rollers to the spine, wherein the pin component is inserted into an opening formed in the spine to connect the rollers to the spine, wherein the pin component comprises a base member, wherein one pin is coupled to one side of the base member and another pin is coupled to an opposite side of the base member, and wherein the base member is coupled to the spine by a tongue and groove connection; anda roller rotationally coupled to each pin such that each roller is coplanar with another roller on the opposite side of the spine. 2. The roller bearing of claim 1, wherein the pins are separate components that are coupled to the spine. 3. The roller bearing of claim 1, wherein the tongue and groove connection comprises one or more grooves formed in the base member that mate with one or more tongues formed in the opening of the spine. 4. The roller assembly of claim 1, wherein the spine has a trapezoidal shaped cross-section. 5. The roller assembly of claim 1, wherein the bearing cage is concentric with the inner ring and the outer ring. 6. The roller assembly of claim 1, wherein the rollers are hollow and have a hole formed through each roller within which the pins are inserted to couple the roller to the spine. 7. The roller bearing of claim 1, wherein a center axis of each pin disposed on the one side of the spine is coplanar with a center axis of a corresponding pin disposed on the opposite side of the spine such that the center axis of each pin intersects with the center axis of the corresponding pin. 8. A roller bearing, comprising: an inner ring;an outer ring;a bearing cage positioned between the inner ring and the outer ring, wherein the bearing cage includes a spine and a pin component inserted into an opening formed in the spine, wherein the pin component includes at least one pin, wherein the pin component further includes another pin disposed on an opposite side of the pin component from the one pin, wherein the pin component comprises a base member, wherein one pin is coupled to one side of the base member and the other pin is coupled to an opposite side of the base member, and wherein the base member has an S-shaped or Z-shaped body; anda roller rotationally coupled to the pin. 9. The roller bearing of claim 8, wherein the pins are coplanar relative to each other. 10. The roller bearing of claim 9, wherein a center axis of the pin disposed on the one side of the pin component is coplanar with and intersects a center axis of the other pin disposed on the opposite side of the pin component. 11. The roller bearing of claim 8, wherein the pins are offset relative to each other. 12. The roller bearing of claim 11, wherein a center axis of the pin disposed on the one side of the pin component is offset and skewed relative to a center axis of the other pin disposed on the opposite side of the pin component. 13. A roller bearing, comprising: an inner ring;an outer ring;a bearing cage positioned between the inner ring and the outer ring, wherein the bearing cage includes a spine and a pin component inserted into an opening formed in the spine, wherein the pin component includes at least one pin, wherein the pin component further includes another pin disposed on an opposite side of the pin component from the one pin, wherein the pin component comprises a base member, wherein one pin is coupled to one side of the base member and the other pin is coupled to an opposite side of the base member, and wherein the base member has an I-shaped or H-shaped body; anda roller rotationally coupled to the pin. 14. The roller bearing of claim 13, wherein the pins are coplanar relative to each other. 15. The roller bearing of claim 14, wherein a center axis of the pin disposed on the one side of the pin component is coplanar with and intersects a center axis of the other pin disposed on the opposite side of the pin component. 16. The roller bearing of claim 13, wherein the pins are offset relative to each other. 17. The roller bearing of claim 16, wherein a center axis of the pin disposed on the one side of the pin component is offset and skewed relative to a center axis of the other pin disposed on the opposite side of the pin component.
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