Shaft for a rotating electrical machine, and rotor and method for producing such a rotor

What is claimed is: 1. A shaft for a rotating electrical machine, comprising: at least one housing element disposed external to the shaft and formed of a groove extending lengthwise in an axial direction of the shaft and having one side thereof extending outwards in a radial direction of the shaft, wherein the at least one housing element comprising a spacer and configured to accommodate at least one insulated electrical conductor and the spacer; and at least one ring to be inserted onto the shaft in the axial direction wherein the spacer is positioned between the at least one insulated electrical conductor and ring to compensate for space between the ring and the at least one insulated electrical conductor to prevent movement thereof. 2. The shaft according to claim 1 , wherein the housing element is in comprises a cross section perpendicular to the axial direction and the one side thereof including a substantially rectangular portion extending outwards in the radial direction. 3. The shaft according to claim 1 , wherein the housing element comprising a cross section perpendicular to the axial direction and including a first portion, substantially rectangular in form, extending onto a second portion, substantially trapezoidal in form, with the second portion extending outwards in a radial direction. 4. The shaft according to claim 3 , wherein the second portion, which is substantially trapezoidal in form, includes a small base in a radially outer position and a large base, with the small base positioned outside the large base in the radial direction so that an insulated electrical conductor can be inserted into the first portion in a radial direction of the shaft, through the second portion. 5. The shaft according to claim 4 , wherein the number and dimensions of the housing elements are determined so that the shaft has sufficient rigidity to transmit a predetermined torque when the rotating electrical machine is operating in motor or generator mode, so that the bending and torsion modes of a rotor incorporating the shaft are outside the range αof the rotor's operating speeds, and to limit the deflection of the shaft to a predetermined value. 6. The shaft according to claim 5 , comprising at least two housing elements, with angles (α 1 , α. 2 , α. 3 , β 1 , β 2 , β 3 ) in the axial direction between two centers of mass of two adjacent housing elements being equal in value. 7. A rotor for a rotating electrical machine comprising a shaft, wherein the shaft comprising: a plurality of housing elements disposed external to the shaft and formed of a groove extending lengthwise in an axial direction of the shaft and each having on side thereof extending outwards in a radial direction of the shaft, and each housing element comprising a spacer and a portion for accommodating at least one insulated electrical conductor and the spacer; and wherein the rotor includes insulated electrical conductors so that each portion comprises the same number of electrical conductors so as to fill each portion. 8. The rotor according to claim 7 , wherein the shaft comprises one portion and further comprising at least a ring inserted onto the shaft in the axial direction so that the shaft and the ring are secured together by shrink-fitting, with each portion further comprising the spacer positioned between the insulated electrical conductor and the ring so as to prevent the conductor from moving in the portion. 9. The rotor according to claim 7 , wherein the shaft comprises a first portion and a second portion, with the second portion further comprising a spacer to prevent the conductors from moving in the portion, a clearance space separating a free end of the spacer from an outer periphery of the shaft. 10. The rotor according to claim 9 , wherein the first portion comprises insulated electrical conductors separated by the spacer extending into the first portion. 11. The rotor according to claim 10 , wherein the insulated electrical conductors comprise metal bars, covered with an electrical insulator or electrical cables covered with an electrical insulator. 12. A method for producing the rotor according to claim 7 for a rotating electrical machine comprising inserting, insulated electrical conductors into first portions of the shaft in the radial direction of the shaft. 13. The method according to claim 12 , wherein the spacer is inserted into each of the first portions in a radial direction wherein the insulated electrical conductors are prevented from moving in the first portion, a ring being inserted onto the shaft so that the shaft and the ring are secured together by shrink-fitting, wherein the outside of the ring is machined, and an inner ring of a bearing is inserted onto the ring by shrink-fitting. 14. The method according to claim 12 , further comprising: inserting a spacer into each of the second portions in an axial direction, the insulated electrical conductors being prevented from moving in the first portion and a clearance space separating a free end of the spacer from an outer periphery of the shaft, and wherein an inner ring of a bearing is inserted onto the shaft by shrink-fitting.