Method of assembling a drive train having improved stiffness for an electric machine

The invention claimed is: 1. A method of assembling a drive train for an electric machine, the drive train comprising a shaft having a front end and a rear end and is supported in a housing via a front bearing and a rear bearing, the front bearing comprising a front bearing outer ring and a front bearing inner ring, and the rear bearing comprising a rear bearing outer ring and a rear bearing inner ring, the method comprising the following steps: a) providing the shaft; b) mounting the front bearing to the shaft by temporarily heating the front bearing and shifting the same to a front position at the shaft; c) arranging a first cover and a second cover at the shaft from a rear end of the shaft, wherein the first cover is configured to seal a rear side of the front bearing and the second cover is configured to seal a front side of the rear bearing, wherein the first cover is configured to be mounted to the housing by an auxiliary support, wherein the auxiliary support abuts a portion of the housing and a rear axial end of the first cover, and wherein the auxiliary support is configured to be mounted to the housing and the first cover; d) mounting the rear bearing to the shaft by temporarily heating the rear bearing and shifting the same from the rear end of the shaft to a rear position at the shaft; e) mounting the second cover to the rear bearing outer ring; f) mounting the housing to the shaft by temporarily heating the housing and relatively moving the same over the shaft from the rear end of the shaft till a housing abutment abuts to the second cover; g) mounting the second cover to the housing; h) dismounting the second cover from the rear bearing outer ring; and i) mounting a third cover to the housing such that the rear bearing outer ring is secured by the second and third covers, wherein the third cover is configured to seal a rear side of the rear bearing. 2. The method according to claim 1 , further comprising: connecting the first cover to the housing such that a first axial clearance remains between the first cover and the front bearing, by mounting the auxiliary support to the housing which connects the first cover to the housing. 3. The method according to claim 2 , wherein: the auxiliary support is mounted through at least one access window which is provided in the housing between the first and second covers. 4. The method according to claim 1 , comprising at least one of the following features: in step e), the second cover is mounted to the rear bearing outer ring by bolts, and in step h), the second cover is dismounted from the rear bearing outer ring by releasing the bolts; in step g), the second cover is mounted to the housing by bolts; in step i), the third cover is mounted to the housing by bolts; the auxiliary support is mounted to the housing and the first cover by bolts. 5. The method according to claim 1 , further comprising: after step i), mounting a ring to the shaft such that the ring at least one of secures and contacts the rear bearing inner ring. 6. The method according to claim 1 , further comprising: before step b), mounting a fourth cover to the housing, the fourth cover is configured to seal a front side of the front bearing, and in step b), the front bearing is shifted to the front position at the shaft from a rear end of the shaft such that a second axial clearance remains between the fourth cover and the front bearing. 7. The method according to claim 1 , wherein at least one of the front bearing and the rear bearing comprises either non-tapered rolling bodies, or spherical rolling bodies. 8. The method according to claim 1 , wherein the housing is a single-piece housing. 9. The method according to claim 1 , further comprising: between steps g) and h), a step of temporarily supporting the housing by a jig. 10. The method according to claim 1 , wherein a first bolt passes through the auxiliary support and subsequently through the housing to connect the auxiliary support to the housing and wherein a second bolt passes through the auxiliary support and subsequently through the first cover to connect the auxiliary support to the first cover. 11. The method according to claim 1 , wherein the auxiliary support abuts both the portion of the housing and the rear axial end of the first cover in a radial plane. 12. A drive train for an electric machine, the drive train comprising: a shaft having a front end and a rear end and being supported in a housing via a front bearing and a rear bearing, wherein the front bearing comprising a front bearing outer ring and a front bearing inner ring, and the rear bearing comprising a rear bearing outer ring and a rear bearing inner ring; a first cover mounted to the housing and being configured to seal a rear side of the front bearing, wherein the first cover is mounted to the housing by an auxiliary support, wherein the auxiliary support abuts a portion of the housing and a rear axial end of the first cover, and wherein the auxiliary support is mounted to the housing and the first cover to connect the first cover to the housing; a second cover mounted to the housing and being configured to seal a front side of the rear bearing; and a third cover mounted to the housing and being configured to seal a rear side of the rear bearing, wherein the rear bearing outer ring is secured by the second and third covers; wherein the housing is a single-piece housing; and the housing comprises at least one access window which is provided between the first and second covers. 13. The drive train according to claim 12 , wherein: the first cover is connected to the housing such that a first axial clearance remains between the first cover and the front bearing. 14. The drive train according to claim 12 , comprising at least one of the following features: the second cover is mounted to the housing by bolts; the third cover is mounted to the housing by bolts; and the auxiliary support is mounted to the housing and the first cover by bolts. 15. The drive train according to claim 12 , further comprising: a ring mounted to the shaft such that the ring secures and contacts the rear bearing inner ring. 16. The drive train according to claim 12 , further comprising: a fourth cover mounted to the housing and being configured to seal a front side of the front bearing, wherein a second axial clearance remains between the fourth cover and the front bearing. 17. The drive train according to claim 12 , wherein at least one of the front bearing and the rear bearing comprises either non-tapered rolling bodies, or spherical rolling bodies. 18. The drive train according to claim 12 , wherein a first bolt passes through the auxiliary support and subsequently through the housing to connect the auxiliary support to the housing and wherein a second bolt passes through the auxiliary support and subsequently through the first cover to connect the auxiliary support to the first cover. 19. The drive train according to claim 12 , wherein the auxiliary support abuts both the portion of the housing and the rear axial end of the first cover in a radial plane.