Split bearing cage for rolling element bearing

The invention claimed is: 1. A bearing cage for a rolling-element bearing comprising: first and second axially spaced-apart side rings extending in a circumferential direction, each side ring being split along a cutting line at a single circumferential location, thereby defining bordering surfaces on first and second bearing cage sections, ends of the first and second bearing cage sections which are located generally diametrically opposite from the cutting line being integrally connected without a seam therebetween such that the cutting line defines a single seam within the bearing cage when the bordering surfaces on the first and second bearing cage sections are abutting, a plurality of connecting bridges connecting the side rings in an axial direction, a pair of mutually-opposing first projections and corresponding first openings disposed on the side rings along the bordering surfaces of the first and second bearing cage sections, the pair of mutually-opposing first projections and corresponding first openings being configured to fix the bordering surfaces to each other in at least first and second directions that are perpendicular to each other, and a second projection and a corresponding second opening disposed axially between the pair of mutually-opposing first projections and first openings, the second projection and second opening being configured to fix the bordering surfaces to each other in a third direction perpendicular to the first and second directions, the second projection having a rectilinear shape and projecting in the circumferential direction a greater distance, relative to the cutting line, than an apex of the pair of mutually opposing first projections, and the second projection having a first axial width corresponding to an axial extension of one of the connecting bridges, the first axial width of the second projection configured to be longer than a second axial width of the second opening such that an interference fit is provided therebetween. 2. The bearing cage according to claim 1 , wherein: the first projections of the first bearing cage section are larger than the first openings of the second bearing cage section such that, upon insertion of the first projections into the first openings, a snap-fit connection of the bearing cage sections is formed. 3. The bearing cage according to claim 2 , wherein the first direction is a tangential direction of the bearing cage, the second direction is one of the axial direction and a radial direction of the bearing cage and the third direction is the other of the axial direction and the radial direction. 4. The bearing cage according claim 3 , wherein the first projections and the corresponding first openings are opposingly formed in the side rings on the bordering surfaces along the cutting line and extend in the circumferential direction, so that the first projections are pushable into the corresponding first openings in the circumferential direction. 5. The bearing cage according to claim 4 , wherein the first projections have a substantially semicircular to circular cross-section perpendicular to a rotational axis of the bearing cage, and the first openings have a spherical cross-section matching the substantially semicircular to circular cross-section and are perpendicular to the rotational axis of the bearing cage. 6. The bearing cage according to claim 5 , wherein an axial extension of each first projection corresponds to an axial extension of the respective side ring. 7. The bearing cage according to claim 6 , wherein the second projection is larger in the axial direction than the corresponding second opening such that, upon insertion of the second projection into the second opening, a press-fit of the bearing cage sections is formed that fixes the bearing cage sections to each other in the axial direction. 8. The bearing cage according to claim 7 , wherein the first axial width of the second projection and the second axial width of the corresponding second opening fall within the range from seventy percent (70%) to ninety percent (90%) of a total axial width of the bearing cage. 9. The bearing cage according to claim 8 , which comprises a polymer material and is formed in one integral piece. 10. A rolling-element bearing comprising: a bearing cage according to claim 9 , and a plurality of rolling elements respectively disposed in pockets defined between adjacent connecting bridges. 11. The bearing cage according to claim 1 , wherein the first direction is a tangential direction of the bearing cage, the second direction is one of the axial direction and a radial direction of the bearing cage and the third direction is the other of the axial direction and the radial direction. 12. The bearing cage according claim 1 , wherein the first projections and the corresponding first openings are opposingly formed in the side rings on the bordering surfaces along the cutting line and extend in the circumferential direction, so that the first projections are pushable into the corresponding first openings in the circumferential direction. 13. The bearing cage according to claim 1 , wherein the first projections have a substantially semicircular to circular cross-section perpendicular to a rotational axis of the bearing cage, and the first openings have a spherical cross-section matching the substantially semicircular to circular cross-section. 14. The bearing cage according to claim 1 , wherein an axial length of each first projection corresponds to an axial length of the respective side ring. 15. The bearing cage according to claim 1 , wherein the first axial width of the second projection and the second axial width of the corresponding second opening fall within the range from seventy percent (70%) to ninety percent (90%) of a total axial width of the bearing cage. 16. The bearing cage according to claim 1 , wherein each of the second projection and the corresponding second opening have an axial length corresponding to an axial length of one of the connecting bridges. 17. A rolling-element bearing comprising: a bearing cage according to claim 1 , and a plurality of rolling elements respectively disposed in pockets defined between adjacent connecting bridges.