Cage segment of a tapered roller bearing, and tapered roller bearing

The invention claimed is: 1. A cage segment of a tapered roller bearing for rotatably supporting a first machine part relative to a second machine part, the cage segment including: two mutually opposing circumferential bridges, which each extend between a first circumferential end and a second circumferential end of the cage segment, and at least two mutually opposing connecting bridges, which connect the two circumferential bridges to each other and, together with the circumferential bridges, form at least one pocket for accommodating a conical rolling element, wherein, the circumferential bridges and the connecting bridges have pocket sides which delimit the pocket, the connecting bridges each have, on their pocket sides, a concave first guide surface and a concave second guide surface for partially enclosing a rolling element in its circumferential direction, the circumferential bridges and the connecting bridges which are disposed in the region of the first circumferential end and of the second circumferential end have peripheral sides opposing the pocket sides, the cage segment includes a first positioning aid in the region of the first circumferential end and a second positioning aid in the region of the second circumferential end, wherein the first positioning aid and the second positioning aid are disposed relative to each other such that the first positioning aid and the second positioning aid are able to engage with each other only when adjacent cage segments are offset by less than 180° with respect to each other, and the cage segment is rolling-element guided. 2. The cage segment according to claim 1 , wherein the first positioning aid and the second positioning aid have complementary shapes. 3. The cage segment according claim 1 , wherein the first positioning aid and the second positioning aid are disposed in a section of the circumferential side of the respective connecting bridge which overlaps with one of the circumferential bridges. 4. The cage segment according to claim 1 , wherein the first positioning aid is formed as an elevation projecting in the circumferential direction over the peripheral side of the connecting bridge and the second positioning aid is formed as a recess. 5. The cage segment according to claim 1 , wherein the cage segment includes exactly one pocket. 6. A tapered roller bearing for rotatable supporting of a first machine part relative to a second machine part, including conical rolling elements which each have an axis of rotation, wherein, the axes of rotation of the rolling elements are disposed on a rounded surface, and a plurality of the cage segments according to claim 1 , which each accommodate at least one rolling element. 7. The tapered roller bearing according to claim 6 , wherein the cage segments are disposed directly adjacent to one another in the circumferential direction of the tapered roller bearing. 8. A method for assembling a tapered roller bearing comprising providing a plurality of cage segments according to claim 1 and positioning the plurality of cage segments adjacent to each other in the circumferential direction of the tapered roller bearing such that the first positioning aid and the second positioning aid are able to engage with each other only when adjacent cage segments are offset by less than 180° with respect to each other. 9. The method according to claim 8 , wherein the cage segments are each loaded with at least one rolling element prior to the positioning in the tapered roller bearing. 10. The cage segment according claim 1 , wherein the first positioning aid includes at least one convex corner to engage with at least one concave corner of the second positioning aid. 11. A first cage segment of a tapered roller bearing for rotatably supporting a first machine part relative to a second machine part, the first cage segment comprising: a first circumferential end and a second circumferential end; first and second mutually opposing circumferential bridges extending between the first circumferential end and the second circumferential end of the first cage segment, each of the first and second circumferential bridges having mutually facing pocket sides; first and second mutually opposing connecting bridges connecting the first and second circumferential bridges, each of the first and second connecting bridges having mutually facing pocket sides, the pocket sides of the circumferential bridges defining with the pocket sides of the circumferential bridges at least one pocket configured to accommodate a conical rolling element; and a projection at the first circumferential end of the first cage segment and a recess complementary to the projection at the second circumferential end of the first cage segment, the projection of the first cage segment being configured to mate with a recess of a second cage segment adjacent to the first cage segment and the recess of the first cage segment being configured to mate with a projection of a third cage segment adjacent to the first cage segment; wherein the pocket sides of the connecting bridges are concave and configured to guide a rolling element, the projection at the first circumferential end of the first cage segment is able to engage with the recess of a second cage segment only when the first cage segment and the second cage segment are offset by less than 180° with respect to each other, and the first cage segment is configured to be rolling-element guided. 12. The first cage segment according to claim 11 wherein the projection is formed at a junction of the first circumferential bridge and the first connecting bridge and the recess is formed at a junction of the first circumferential bridge and the second connecting bridge. 13. A first cage segment of a tapered roller bearing for rotatably supporting a first machine part relative to a second machine part, the first cage segment comprising: a first circumferential end and a second circumferential end; first and second mutually opposing circumferential bridges extending between the first circumferential end and the second circumferential end of the first cage segment, each of the first and second circumferential bridges having mutually facing pocket sides; first and second mutually opposing connecting bridges connecting the first and second circumferential bridges, each of the first and second connecting bridges having mutually facing pocket sides, the pocket sides of the circumferential bridges defining with the pocket sides of the circumferential bridges at least one pocket configured to accommodate a conical rolling element; first positioning means for positioning the first cage segment relative to a second cage segment, the first positioning means located at the first circumferential end of the first cage segment; and second positioning means for positioning the first cage segment relative to a third cage segment, the second positioning means located at the second circumferential end of the first cage segment, wherein the pocket sides of the connecting bridges are concave and configured to guide a rolling element, the first positioning means and the second positioning means are able to engage with each other only when the first cage segment and the second cage segment are offset by less than 180° with respect to each other, and the first cage segment is configured to be rolling-element guided. 14. The first cage segment according to claim 13 , wherein the first positioning means has a shape complementary to a shape of the second positioning means. 15. The first cage segment according to claim 14 , wherein the first positioning