Drive unit and vehicle axle for an electric vehicle

The invention claimed is: 1. A drive unit ( 10 , 33 ) for an electric vehicle, the drive unit ( 10 , 33 ) comprising: at least one electric machine ( 10 ), the electric machine being arranged in an area of one of two opposed axial ends of a vehicle axle ( 1 ) of the electric vehicle; a housing enclosing only one of the at least one electric machine, the housing comprises a plurality of holding projections that are arranged about a circumference of the housing and extend axially from an end of the housing; a transmission unit ( 33 ) cooperating with the electric machine ( 10 ) for driving a respective wheel ( 5 ) of the electric vehicle, the transmission unit having at least one transmission component, the transmission component comprises an end having a plurality of grooves that are arranged about a circumference of the transmission component; the electric machine ( 10 ) and the transmission unit ( 33 ) are arranged adjacent to the wheel at the one of the two opposed axial ends of the vehicle axle, the electric machine ( 10 ) is arranged, adjacent to the wheel at the one of the two opposed axial ends of the vehicle axle ( 1 ), in the drive unit for driving the wheel ( 5 ) concerned; and the plurality of holding projections of the housing are received by the plurality of grooves of the transmission component and facilitate coupling of the housing and the transmission component. 2. The drive unit ( 10 , 33 ) according to claim 1 , wherein the electric machine ( 10 ) and the housing thereof are symmetrically arranged relative to a drive axis of the electric machine. 3. The drive unit ( 10 , 33 ) according to claim 1 , wherein the housing of the electric machine ( 10 ) has fixing means ( 22 ) which is arranged symmetrically relative to a respective drive spindle ( 13 ) of the electric machine ( 10 ). 4. The drive unit ( 10 , 33 ) according to claim 3 , wherein the housing of the electric machine has axially opposed first and second ends, at least one coolant inlet ( 21 a ) is located at the first end of the housing and at least one coolant outlet ( 21 b ) is located at the second end of the housing and facilitate a flow of coolant for cooling the electric machine ( 10 ), the at least one coolant inlet ( 21 a ) and the at least one coolant outlet ( 21 b ) are arranged one of symmetrically relative to the fixing means ( 22 ) and spaced apart from each other along an axis that is parallel to a drive spindle ( 13 ) of the electric machine ( 10 ). 5. The drive unit ( 10 , 33 ) according to claim 1 , wherein the housing of the electric machine ( 10 ) has fixing eyes ( 22 ) which are arranged radially symmetrically relative to a respective drive spindle ( 13 ) of the electric machine ( 10 ). 6. The drive unit ( 10 , 33 ) according to claim 1 , wherein the plurality of grooves of the transmission component mate with the plurality of holding projections to rotationally fix the electric machine ( 10 ) and the transmission component to each other. 7. The drive unit ( 10 , 33 ) according to claim 6 , wherein the plurality of holding projections of the housing each comprise a radially outwardly facing recess which align with a circumferential channel in the transmission component when the plurality of holding projections of the housing are received by the plurality of grooves of the transmission component, and an annular ring is received by the circumferential channel and the outwardly facing recesses of the holding projections to lock the transmission component to the housing. 8. The drive unit ( 10 , 33 ) according to claim 1 , wherein the plurality of the holding projections and the plurality of grooves fix the electric machine ( 10 ) to a planetary gear system of the transmission unit ( 33 ). 9. The drive unit ( 10 , 33 ) according to claim 1 , wherein the transmission unit ( 33 ) comprises a planetary gear system and the transmission component is a ring gear ( 25 ) so that the ring gear ( 25 ) is attached, in an axial direction, to the electric machine ( 10 ). 10. The drive unit ( 10 , 33 ) according to claim 9 , wherein the ring gear ( 25 ) is attached, in a rotationally fixed manner, to the holding device ( 23 ) by a locking ring ( 26 ) which fixes the plurality of holding projections of the housing to the ring gear. 11. The drive unit ( 10 , 33 ) according to claim 9 , wherein the ring gear ( 25 ) is cylindrical and the plurality of grooves are axial grooves, and the ring gear has an annular channel ( 27 ), the annular channel of the ring gear receives a locking ring which is also received by recesses in the plurality of holding projections so as to lock the ring gear to the housing of the electric machine. 12. The drive unit ( 10 , 33 ) according to claim 9 , wherein at least one of the ring gear ( 25 ) is made of steel and the housing of the electric machine ( 10 ) is made of aluminum. 13. The drive unit ( 10 , 33 ) according to claim 1 , wherein a rotation speed sensor ( 15 , 30 ), for detecting at least one of a rotation speed of a shaft of the transmission unit ( 33 ) and a rotation speed of a shaft of the electric machine ( 10 ), is designed in the form of an ABS sensor ( 30 ). 14. The drive unit ( 10 , 33 ) according to claim 13 , wherein a ring magnet ( 31 ) is arranged on the shaft of the transmission unit ( 33 ) for detecting the rotation speed thereof by the ABS sensor ( 30 ). 15. The drive unit ( 10 , 33 ) according to claim 1 , wherein the vehicle axle ( 1 ) has first and second opposed axial ends, a first drive unit ( 10 , 33 ) is supported adjacent the first axial end, of the vehicle axle ( 1 ) for wheel-adjacent driving of a first wheel, a second drive unit ( 10 , 33 ) is supported adjacent the second axial end of the vehicle axle ( 1 ) for wheel-adjacent driving of a second wheel, and the first drive unit has a first housing which encloses a first electric machine, and the second drive unit has a housing which encloses a first electric machine such that the first and the second drive units are axially spaced from each other. 16. A vehicle axle ( 1 ) comprising first and second opposed ends, a first drive unit ( 10 , 33 ) being supported adjacent the first end of the vehicle axle ( 1 ) for wheel-adjacent driving of a first wheel, and a second drive unit ( 10 , 33 ) being supported adjacent the second end of the vehicle axle ( 1 ) for wheel-adjacent driving of a second wheel, and each of the first and the second drive units ( 10 , 33 ) comprising: a respective electric machine ( 10 ) being arranged in an area of one end of the vehicle axle ( 1 ), each of the electric machines being enclosed in a respective housing, one axial end of each of the housings comprises a plurality of axially extending holding projections that are arranged about a circumference of the housing; and a respective transmission unit ( 33 ) cooperating with the respective electric machine ( 10 ) for driving the respective wheel ( 5 ), each of the transmission units having an axial end that comprises a plurality of axially extending grooves, the axially extending holding projections of the housings are received within the plurality of axially extending grooves of the transmission units to fix the transmission units to the respective electric machines; wherein the respective electric machine ( 10 ) and the respective transmission unit ( 33 ) are arranged adjacent to the respective wheel at the respective first and the second ends of the vehicle axle ( 1 ). 17. The drive unit according to claim 16 , wherein the plurality of the holding projections of the housings being radially s