Bearing assembly

What is claimed is: 1. A bearing assembly comprising two rolling-element bearings, each rolling-element bearing having an inner ring and an outer ring and rolling elements disposed between the inner ring and the outer ring, wherein the inner ring and the outer ring are configured to be axially preloaded, wherein a flange is disposed on each of the inner rings and/or on each of the outer rings, each of the flanges forming an axial stop for the rolling elements, wherein at least one of the flanges is axially adjustable relative to the inner ring or relative to the outer ring on which the at least one of the flanges is disposed, wherein the at least one of the flanges comprises a flange ring having a first section axially slidably mounted on one of the bearing rings and a second section axially adjacent to the first axial section, the second section comprising a thread, wherein the thread is configured to threadably engage a counterthread of a separate component at a location axially spaced from the bearing ring, a lock nut adjacent to second section of the flange ring and engaged with the counterthread of the separate component such that the lock nut permanently sets the axial preload by positionally fixing the flange ring. 2. The bearing assembly according to claim 1 , wherein an end surface of the separate component directly abuts an end surface of the bearing ring. 3. The bearing assembly according to claim 1 , wherein the separate component is a hollow-cylindrical sleeve. 4. The bearing assembly according to claim 1 , wherein the separate component includes at least one axial groove. 5. The bearing assembly according to claim 1 , wherein the rolling elements comprise tapered rolling elements. 6. The bearing assembly according to claim 1 , wherein the at least one of the flanges is disposed on one of the inner rings. 7. The bearing assembly according to claim 1 , wherein an end surface of the separate component directly abuts an end surface of the bearing ring, wherein the separate component is a hollow-cylindrical sleeve, including means for axially fixing the flange ring on the separate component, wherein the rolling elements comprise tapered rolling elements, and wherein the at least one of the flanges is disposed on one of the inner rings. 8. The bearing assembly according to claim 1 , wherein the counterthread is radially offset from the first section of the flange ring. 9. The bearing assembly according to claim 1 , wherein the thread is radially offset from the first section of the flange ring. 10. The bearing assembly according to claim 1 , including a shaft having a shoulder, wherein one of the inner rings comprises a raceway and a slide surface axially adjacent the raceway, the one of the inner rings having a first axial end surface and a second axial end surface, the one of the inner rings being mounted on the shaft with the first axial end surface abutting the shoulder, wherein the separate component is mounted on the shaft and abuts the second axial end surface of the first inner ring, and wherein the first section of the flange ring is slidably mounted on the slide surface and the thread is radially spaced from the slide surface. 11. A bearing assembly comprising two rolling-element bearings, each rolling-element bearing having an inner ring and an outer ring and rolling elements disposed between the inner ring and the outer ring, wherein the inner ring and the outer ring are configured to be axially preloaded, wherein a flange is disposed on each of the inner rings and/or on each of the outer rings, each of the flanges forming an axial stop for the rolling elements, wherein at least one of the flanges is axially adjustable relative to the inner ring or relative to the outer ring on which the at least one of the flanges is disposed, wherein the at least one of the flanges comprises a flange ring having a first section axially slidably mounted on one of the bearing rings and a second section axially adjacent to the first axial section, the second section comprising a thread, wherein the thread is configured to threadably engage a counterthread of a separate component at a location axially spaced from the bearing ring, a plastically deformed part of the second section of the flange ring axially fixing the flange ring on the separate component, wherein the first section of the flange ring is at least sectionally hardened and the second section of the flange ring is at least sectionally unhardened. 12. A bearing assembly comprising: a shaft having a shoulder, a first rolling-element bearing comprising a first inner ring and a first outer ring and a first set of rolling elements disposed between the first inner ring and the first outer ring, the first inner ring including a raceway and a slide surface axially adjacent the raceway, and the first inner ring having a first axial end surface and a second axial end surface, the first inner ring being mounted on the shaft with the first axial end surface abutting the shoulder, a second rolling-element bearing having a second inner ring and a second outer ring and a second set of rolling elements disposed between the second inner ring and the second outer ring, a separate component mounted on the shaft and abutting the second axial end surface of the first inner ring the separate component including a counterthread, and a flange ring comprising a first section slidably mounted on the slide surface and having a first wall configured to guide the first set of rolling elements and a second section axially adjacent the first section, the second section including a thread radially spaced from the slide surface and in threaded engagement with the counterthread, a lock nut adjacent to second section of the flange ring and engaged with the counterthread of the separate component such that the lock nut permanently sets the axial preload by positionally fixing the flange ring, wherein the first and second rolling-element bearings are configured to be axially preloaded. 13. The bearing assembly according to claim 12 , including means for axially fixing the flange ring on the separate component.