Rotor for a synchronous reluctance machine

What is claimed is: 1. A rotor for a synchronous reluctance machine comprising: a rotor and a stator with 36 stator slots, a cross-section of the rotor comprising having: four pole sectors arranged symmetrically about a central aperture of the cross-section, each pole sector comprising having a plurality of insulating barriers, each insulating barrier extending between two pitch points, a plurality of q-axes, each q-axis defining a direction of maximum reluctance of the corresponding pole sector, a perimeter defining the outer contour of the cross-section, a plurality of reference points located on the perimeter symmetrically with regard to the q-axes, the angular intervals between the reference points defining reference angles which between two circumferentially adjacent q-axes have an equal value of α m =γ/(k−1), where γ is an angle between two pitch points that are furthest apart between two circumferentially adjacent q-axes and k is the number of pitch points between two circumferentially adjacent q-axes, a q-axis pitch angle defined by an angular distance δ between two circumferentially adjacent pitch points on opposite sides of a q-axis, the q-axis pitch angle having a value which is different from δ=3*α m δ=I*α m , where I is a set of all integers, the angular positions of each pitch point and the reference point closest to that pitch point have a deviation having a value Δ T less than 2.5 degrees, characterized in that the q-axis pitch angle has a value δ 50 degrees or less. 2. The rotor synchronous reluctance machine according to claim 1 , wherein the angular positions of the pitch points and the closest reference points have a deviation having a value Δ T less than 2 degrees, such as less than 1 degree. 3. The rotor synchronous reluctance machine according to claim 1 , wherein the q-axis pitch angles differ from δ=3*α m by at least 1 degree, such as at least 2, 3, 5 or 10 degrees. 4. The rotor synchronous reluctance machine according to claim 1 comprising a radial rib across an insulating barrier for improving the mechanical strength of the rotor. 5. The rotor synchronous reluctance machine according to claim 1 comprising a cut-off at the rotor perimeter on a q-axis. 6. The synchronous reluctance machine according to claim 1, wherein the q-axis pitch angle has a value δ between 30 and 38 degrees. 7. The synchronous reluctance machine according to claim 1, wherein k=8. 8. The synchronous reluctance machine according to claim 1, wherein the reference points are distributed unevenly around the perimeter. 9. A synchronous reluctance machine comprising: a rotor and a stator with 36 stator slots, a cross-section of the rotor having: four pole sectors arranged symmetrically about a central aperture of the cross-section, each pole sector having a plurality of insulating barriers, each insulating barrier extending between two pitch points, a plurality of q-axes, each q-axis defining a direction of maximum reluctance of the corresponding pole sector, a perimeter defining the outer contour of the cross-section, a plurality of reference points located on the perimeter symmetrically with regard to the q-axes, the angular intervals between the reference points defining reference angles which between two circumferentially adjacent q-axes have an equal value of α m =γ/(k−1), where γ is an angle between two pitch points that are furthest apart between two circumferentially adjacent q-axes and k is the number of pitch points between two circumferentially adjacent q-axes, a q-axis pitch angle defined by an angular distance δ between two circumferentially adjacent pitch points on opposite sides of a q-axis, the q-axis pitch angle having a value which is equal to δ=I*α m , where I is a non-integer coefficient, the angular positions of each pitch point and the reference point closest to that pitch point have a deviation having a value Δ T less than 2.5 degrees, characterized in that the q-axis pitch angle has a value δ 50 degrees or less. 10. A rotor for a synchronous reluctance machine, a cross-section of the rotor comprising: four pole sectors arranged symmetrically about a central aperture of the cross-section, each pole sector having a plurality of insulating barriers, each insulating barrier extending between two pitch points, a plurality of q-axes, each q-axis defining a direction of maximum reluctance of the corresponding pole sector, a perimeter defining the outer contour of the cross-section, a plurality of reference points located on the perimeter symmetrically with regard to the q-axes, the angular intervals between the reference points defining reference angles which between two circumferentially adjacent q-axes have an equal value of α m =γ/(k−1), where γ is an angle between two pitch points that are furthest apart between two circumferentially adjacent q-axes and k is the number of pitch points between two circumferentially adjacent q-axes, a q-axis pitch angle defined by an angular distance δ between two circumferentially adjacent pitch points on opposite sides of a q-axis, the q-axis pitch angle having a value which is equal to δ=I*α m , where I is a non-integer coefficient, the angular positions of each pitch point and the reference point closest to that pitch point have a deviation having a value Δ T less than 2.5 degrees, characterized in that the q-axis pitch angle has a value δ 50 degrees or less, and the rotor is surrounded by a stator having 36 stator slots.