Treadmill with axial electric motor

What is claimed is: 1. A gymnastic machine comprising a base structure having a front transmission assembly and a rear transmission assembly, wherein said base structure comprises two lateral longitudinal members between which a sliding belt slides, the sliding belt, associated to said base structure, configured for a user to perform a gymnastic exercise, wherein said sliding belt is configured to rotate by means of said front transmission assembly and said rear transmission assembly according to a sliding direction, wherein said sliding belt is arranged between said two lateral longitudinal members; and an electric motor, having at least one stator and at least one rotor, said electric motor being kinematically coupled to said front transmission assembly, or to said rear transmission assembly, for moving said sliding belt, wherein said electric motor is of axial flow type, wherein a magnetic field flow is directed to be parallel with respect to an axis of the electric motor, wherein said at least one rotor is provided with a smooth portion and a toothed portion for coupling with said sliding belt. 2. The gymnastic machine according to claim 1 , wherein the at least one stator is directly or indirectly fixed to one of the two lateral longitudinal members. 3. The gymnastic machine according to claim 1 , wherein said at least one stator comprises a plurality of electric coils and said electric motor comprises a drive shaft rotatably coupled to the at least one stator. 4. The gymnastic machine according to claim 3 , wherein said at least one rotor comprises a first rotor, provided with a plurality of permanent magnets, keyed to said drive shaft, and a second rotor, provided with a plurality of permanent magnets, keyed to said drive shaft. 5. The gymnastic machine according to claim 4 , wherein said rear transmission assembly comprises a rear shaft and said first rotor is coupled to said rear shaft. 6. The gymnastic machine according to claim 5 , wherein said rear transmission assembly comprises the drive shaft which is coupled to said rear shaft by a torque joint or shape couplings. 7. The gymnastic machine according to claim 4 , wherein said first rotor and said second rotor are keyed on said drive shaft and said at least one stator is arranged between said first rotor and second rotor. 8. The gymnastic machine according to claim 4 , wherein said first rotor comprises a hub for coupling between a rear shaft of said rear transmission assembly and said electric motor, and wherein said second rotor is keyed on said hub. 9. The gymnastic machine according to claim 1 , further comprising a transmission means for transmission of the drive of said electric motor to said rear transmission assembly. 10. The gymnastic machine according to claim 9 , wherein said rear transmission assembly comprises a rear shaft and said transmission means comprise a transmission belt and a transmission pulley, solidly coupled to said rear shaft. 11. The gymnastic machine according to claim 1 , wherein said electric motor is installed at an opening in a vertical wall of one of said two lateral longitudinal members. 12. The gymnastic machine according to claim 11 , wherein said one of said two lateral longitudinal members comprises two supports arranged on the sides of said opening. 13. The gymnastic machine according to claim 12 , wherein said electric motor comprises a casing, having a first flange, for fixing said electric motor to said vertical wall. 14. The gymnastic machine according to claim 12 , comprising a lateral adjustment second flange, for the adjustment of the position of said electric motor with respect to one of said two supports. 15. The gymnastic machine according to claim 12 , wherein a rear portion of said electric motor is inserted through said opening afforded on said vertical wall of said one of said two lateral longitudinal members. 16. The gymnastic machine according to claim 1 , wherein said at least one rotor has a greater mass in a perimeter portion, to increase inertia.