Rotating machine with at least one active magnetic bearing and spaced auxiliary rolling bearings

What is claimed is: 1. A rotating machine comprising: a shaft; a casing; at least one main magnetic bearing connected to the shaft for rotatably supporting said shaft; a first auxiliary rolling bearings and a second auxiliary rolling bearing positioned axially spaced and radially between the shaft and the casing to support axial and radial loads, each of said first and second auxiliary rolling bearings including an inner ring, an outer ring and at least one row of rolling elements positioned between the respective inner ring and the outer ring; and a first axial abutment and a second axial abutment positioned on the shaft to transmit axial loads to the inner rings of the first and second auxiliary rolling bearings, wherein the first and second auxiliary rolling bearings are positioned between the first and second axial abutments; a spacer axially positioned between facing faces of the inner rings of said first and second auxiliary rolling bearings and mounted in axial contact with said faces for the transmission of the axial loads between said inner rings of the first and second auxiliary rolling bearings, a first axial retainer positioned on the casing and located axially between facing faces of the outer rings of the first and second auxiliary rolling bearings for the transmission of the axial loads between at least one of said outer rings of the first and second auxiliary rolling bearings and the casing; and a second axial retainer positioned on the casing and located axially at an axial end face of the outer ring of the first auxiliary rolling bearing for the transmission of the axial load between the outer ring of the first auxiliary bearing and the casing; and wherein the first axial retainer is spaced from the outer ring of the first auxiliary rolling bearing. 2. The rotating machine according to claim 1 , wherein the first and second abutments axially faces one of the inner rings on the side opposite to the spacer. 3. The rotating machine according to claim 1 , wherein the shaft comprises at least one sleeve radially interposed between an outer surface of said shaft and the inner rings of the first and second auxiliary rolling bearings. 4. The rotating machine according to claim 3 , wherein the sleeve comprises one of the first and second axial abutments. 5. The rotating machine according to claim 1 , wherein the casing comprises an intermediate housing radially interposed between a bore of said casing and the outer ring of one of the first and second auxiliary rolling bearings. 6. The rotating machine according to claim 5 , wherein the intermediate housing comprises the first axial retainer. 7. The rotating machine according to claim 1 , further comprising a third axial retainer positioned on the casing to axially maintain the outer rings of the second auxiliary rolling bearing, the third axial retainer being located axially at an axial end face of the outer ring of the second auxiliary rolling bearing for the transmission of the axial load between the outer ring of the second auxiliary bearing and the casing. 8. The rotating machine according to claim 7 , further comprising a first pre-stressing and damping element axially positioned between the first axial retainer and the outer ring of the first auxiliary rolling bearing. 9. The rotating machine according to claim 8 , further comprising a second pre-stressing and damping element axially positioned between the third axial retainer and the outer ring of the second auxiliary rolling bearing. 10. The rotating machine according to claim 9 , further comprising a third pre-stressing and damping element axially positioned between the first axial retainer and the outer ring of the second auxiliary rolling bearing; and a fourth pre-stressing and damping element axially positioned between the second axial retainer and the outer ring of the first auxiliary rolling bearing. 11. The rotating machine according to claim 10 , wherein the first and second pre-stressing and damping element comprises an elastic plate spring; and the third and fourth pre-stressing and dampening element comprises a conical washer. 12. The rotating machine according to claim 1 , wherein the first and second auxiliary rolling bearings are identical to one another. 13. The rotating machine according to claim 1 , wherein the first and second auxiliary rolling bearings are positioned axially next to the main magnetic bearing. 14. The rotating machine according to claim 2 , wherein the shaft comprises at least one sleeve radially interposed between an outer surface of said shaft and the inner rings of the first and second auxiliary rolling bearings. 15. The rotating machine according to claim 10 , further comprising a first dampening sleeve radially positioned between the casing and the outer ring of of one of the first and second auxiliary rolling bearings. 16. The rotating machine according to claim 15 , further comprising a second dampening sleeve positioned between the casing and the outer ring of the other one of the first and second auxiliary rolling bearings. 17. The rotating machine according to claim 15 , wherein the first dampening sleeve is a corrugated laminate. 18. The rotating machine according to claim 17 , wherein the second dampening sleeve is a corrugated laminate. 19. The rotating machine according to claim 9 , further comprising a first and second dampening sleeve radially positioned respectively between the casing and the outer ring of a respective first and second auxiliary rolling bearings. 20. The rotating machine comprising: a shaft; a casing; at least one main magnetic bearing connected to the shaft for rotatably supporting said shaft; a first auxiliary rolling bearing and a second auxiliary rolling bearing positioned axially spaced and radially between the shaft and the casing to support axial and radial loads, each of said first and second auxiliary rolling bearings including an inner ring, an outer ring and at least one row of rolling elements positioned between the respective inner ring and outer ring; and a first axial abutment and a second axial abutment positioned on the shaft to transmit axial loads to the inner rings of the first and second auxiliary rolling bearings, wherein the first and second auxiliary rolling bearings are positioned between the first and second axial abutments; a spacer axially positioned between facing faces of the inner rings of said first and second auxiliary rolling bearings and mounted in axial contact with said faces for the transmission of the axial loads between said inner rings of the first and second auxiliary rolling bearings; and a first axial retainer positioned on the casing and located axially between facing faces of the outer rings of the first and second auxiliary rolling bearings for the transmission of the axial loads between at least one of said outer rings of the first and second auxiliary rolling bearings and the casing; and wherein the first auxiliary rolling bearings includes a pair of first auxiliary rolling bearings axially in contact to each other, and the second auxiliary rolling bearings includes a pair of second auxiliary rolling bearings axially axially in contact to each other.