Prong type cage for a double row roller bearing assembly

What is claimed is: 1. A cage for a double row roller bearing assembly, the cage comprising: an annular rim; a first plurality of webs extending axially from a first axial side of the annular rim, a first plurality of roller pockets defined between adjacent ones of the 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, the first slot defining a through opening in a radial direction between the two first prongs, a first partial cylindrical guide surface arranged on each first lateral surface of the first plurality of webs, and a first undercut defined between each of the first lateral surfaces and the annular rim, two of the first prongs on adjacent ones of the first plurality of webs that define one of the first plurality of roller pockets being elastically deformable away from one another for insertion of a roller; and a second plurality of webs extending axially from a second axial side of the annular rim, a second plurality of roller pockets defined between adjacent ones of the second plurality of webs, each of the webs of the second plurality of webs includes two second prongs and a second slot defined between the two second prongs, the second slot defining a through opening in the radial direction between the two second prongs, a second partial cylindrical guide surface arranged on each second lateral surface of the second plurality of webs, and a second undercut defined between each of the second lateral surfaces and the annular rim, two of the second prongs on adjacent ones of the second plurality of webs that define one of the second plurality of roller pockets being elastically deformable away from one another for insertion of a roller. 2. The cage according to claim 1 , wherein the first plurality of webs and the second plurality of webs are circumferentially offset from each other. 3. The cage according to claim 2 , wherein the first plurality of webs and the second plurality of webs are circumferentially offset from each other by half of a pitch of the first plurality of roller pockets and the second plurality of roller pockets. 4. The cage according to claim 1 , wherein the first plurality of partial cylindrical guide surfaces and the second plurality of partial cylindrical guide surfaces are each spaced away from the annular rim. 5. The cage according to claim 1 , wherein the first plurality of partial cylindrical guide surfaces are spaced away from the first plurality of undercuts, and the second plurality of partial cylindrical guide surfaces are spaced away from the second plurality of undercuts. 6. The cage according to claim 1 , wherein the first plurality of partial cylindrical guide surfaces and the second plurality of partial cylindrical guide surfaces each have an axial length between 40-60% of an axial depth of the first plurality of roller pockets and the second plurality of roller pockets. 7. The cage according to claim 6 , wherein the axial length of the first plurality of partial cylindrical guide surfaces and the second plurality of partial cylindrical guide surfaces is 50% of the axial depth of the first plurality of roller pockets and the second plurality of roller pockets. 8. The cage according to claim 1 , wherein the cage is formed from glass-filled thermoplastic, carbon fiber, or polyamide-imide. 9. A bearing assembly comprising: a cage according to claim 1 ; an inner ring defining a first inner raceway and a second inner raceway; an outer ring defining a first outer raceway and a second outer raceway; and a first plurality of rollers runs on the first inner raceway and the first outer raceway, and a second plurality of rollers runs on the second inner raceway and the second outer raceway, the first plurality of rollers arranged within the first plurality of roller pockets, and the second plurality of rollers arranged within the second plurality of roller pockets of the cage in an assembled state. 10. The bearing assembly according to claim 9 , wherein an angle defined by the first partial cylindrical guide surface and the second partial cylindrical guide surface relative to a rotational axis of the bearing assembly is equal to a nominal contact angle of each row of the bearing assembly. 11. The bearing assembly of claim 9 , further comprising a first circumferential window defined by the first partial cylindrical guide surfaces of two of the first prongs on adjacent ones of the first plurality of webs that define one of the first plurality of pockets, and the first circumferential window is 80-90% of a diameter of the plurality of rollers. 12. The bearing assembly of claim 9 , further comprising a second circumferential window defined by the second partial cylindrical guide surfaces of two of the second prongs on adjacent ones of the second plurality of webs that define one of the second plurality of pockets, and the second circumferential window is 80-90% of a diameter of the plurality of rollers. 13. The bearing assembly of claim 9 , wherein the plurality of rollers are cylindrical rollers with curved axial ends. 14. The bearing assembly of claim 9 , wherein the first plurality of webs and the second plurality of webs each have an axial extension between 70-80% of an axial length of the plurality of rollers. 15. A bearing assembly comprising: a cage including (1) an annular rim; (2) a first plurality of webs extending axially from a first axial side of the annular rim, a first plurality of roller pockets defined between adjacent ones of the 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 arranged on each first lateral surface of the first plurality of webs, and a first undercut defined between each of the first lateral surfaces and the annular rim, two of the first prongs on adjacent ones of the first plurality of webs that define one of the first plurality of roller pockets being elastically deformable away from one another for insertion of a roller; and (3) a second plurality of webs extending axially from a second axial side of the annular rim, a second plurality of roller pockets defined between adjacent ones of the second plurality of webs, each of the webs of the second plurality of webs includes two second prongs and a second slot defined between the two second prongs, a second partial cylindrical guide surface arranged on each second lateral surface of the second plurality of webs, and a second undercut defined between each of the second lateral surfaces and the annular rim, two of the second prongs on adjacent ones of the second plurality of webs that define one of the second plurality of roller pockets being elastically deformable away from one another for insertion of a roller; an inner ring defining a first inner raceway and a second inner raceway; an outer ring defining a first outer raceway and a second outer raceway; and a first plurality of rollers runs on the first inner raceway and the first outer raceway, and a second plurality of rollers runs on the second inner raceway and the second outer raceway, the first plurality of rollers arranged within the first plurality of roller pockets, and the second plurality of rollers arranged within the second plurality of roller pockets of the cage in an assembled state, wherein the plurality of rollers are arranged within the first plurality of roller pockets and the second plurality of roller pockets in the assembled state such that the two first prongs of each of the first plu