Electric machine with air channels

The invention claimed is: 1. An electric machine comprises: a cylindrical rotor having a first end, a second opposite end, and axial first air channels, a stator surrounding the rotor having axial second air channels and cooling fins on an outer surface of the stator, a first air chamber at the first end of the rotor and a second air chamber at a second end of the rotor, whereby a flow path is formed between the first air channels and the second air channels through the first air chamber and the second air chamber, a third air chamber at the second end of the rotor axially outside the second air chamber, said third air chamber having an outlet opening directed axially along the outer surface of the stator, a first fan for circulating internal air in a closed air circulation from the first air chamber through the first air channels to the second air chamber and further through the second air channels back to the first air chamber, a second fan for blowing external cooling air from an outside of the electric machine through the third air chamber and from the outlet opening of the third air chamber along the outer surface of the stator, wherein a number of second air channels in the stator is three. 2. The electric machine according to claim 1 wherein the second air channels are formed of two lower second air channels and of one upper second air channel, whereby the lower second air channels are positioned symmetrically in lower corners of a cross section of the electric machine, and the upper second air channel is positioned on a vertical centre axis on an uppermost point of the cross section of the electric machine. 3. The electric machine according to claim 2 , wherein the two lower second air channels are positioned in connection with support structures of the electric machine. 4. The electric machine according to claim 1 wherein the cooling fins positioned in a lower portion of a cross section of the electric machine between support structures are directed in a vertical direction. 5. The electric machine according to claim 1 wherein the cooling fins positioned in side portions of a cross section of the electric machine are directed in a horizontal direction. 6. The electric machine according to claim 1 , wherein the cooling fins positioned in both upper corners of a cross section of the electric machine are directed in a direction that is either between a horizontal direction and a radial direction or between a vertical direction and the radial direction. 7. The electric machine according to claim 1 wherein the first fan is positioned within the second air chamber and that the first fan is driven by the rotor. 8. The electric machine according to claim 1 wherein the second fan is positioned within the third air chamber and that the second fan is driven by the rotor. 9. The electric machine according to claim 2 wherein the cooling fins positioned in a lower portion of the cross section of the electric machine between support structures are directed in a vertical direction. 10. The electric machine according to claim 3 wherein the cooling fins positioned in a lower portion of a cross section of the electric machine between support structures are directed in a vertical direction. 11. The electric machine according to claim 2 wherein the cooling fins positioned in side portions of the cross section of the electric machine are directed in a horizontal direction. 12. The electric machine according to claim 3 wherein the cooling fins positioned in side portions of a cross section of the electric machine are directed in a horizontal direction. 13. The electric machine according to claim 4 wherein the cooling fins positioned in side portions of the cross section of the electric machine are directed in a horizontal direction. 14. The electric machine according to claim 2 wherein the cooling fins positioned in both upper corners of the cross section of the electric machine are directed in a direction that is either between a horizontal direction and a radial direction or between a vertical direction and the radial direction. 15. The electric machine according to claim 3 wherein the cooling fins positioned in both upper corners of a cross section of the electric machine are directed in a direction that is either between a horizontal direction and a radial direction or between a vertical direction and the radial direction. 16. The electric machine according to claim 4 wherein the cooling fins positioned in both upper corners of the cross section of the electric machine are directed in a direction that is either between a horizontal direction and a radial direction or between the vertical direction and the radial direction. 17. The electric machine according to claim 5 wherein the cooling fins positioned in both upper corners of the cross section of the electric machine are directed in a direction that is either between the horizontal direction and a radial direction or between a vertical direction and the radial direction. 18. The electric machine according to claim 2 wherein the first fan is positioned within the second air chamber and that the first fan is driven by the rotor. 19. The electric machine according to claim 3 wherein the first fan is positioned within the second air chamber and that the first fan is driven by the rotor. 20. The electric machine according to claim 4 wherein the first fan is positioned within the second air chamber and that the first fan is driven by the rotor.