Stator comprising a split core and method for producing such a stator

The invention claimed is: 1. An electric motor stator comprising an annular central part and a yoke separate from and surrounding the central part, the central part comprising a bundle of laminations delimiting poles, wherein the bundle of laminations comprises a plurality of first laminations each comprising portions forming a pole part that are joined by an annular internal portion, second laminations each forming a pole part being mounted between the first laminations in an axial direction of the stator, the first laminations being axially spaced apart from one another at a predetermined spacing according to a required inductance. 2. An electric motor stator comprising an annular central part and a yoke separate from and surrounding the central part, the central part comprising a bundle of laminations delimiting poles, wherein the bundle of laminations comprises a plurality of first laminations each comprising portions forming a pole part that are joined by an annular internal portion, second laminations each forming a pole part being mounted between the first laminations in an axial direction of the stator, the first laminations being axially spaced apart from one another at a predetermined spacing according to a required inductance, said stator further comprising teeth extending along a radial direction of the stator and in the space between the adjacent pole parts, the teeth being separated from the annular inner portion by a gap. 3. The stator according to claim 2 , in which the teeth are each formed by a portion of laminations of the yoke, said lamination portion extending so as to project radially outwards. 4. An electric motor stator comprising an annular central part and a yoke surrounding the central part, the central part comprising a bundle of laminations delimiting poles, wherein the bundle of laminations comprises a plurality of first laminations each comprising portions forming a pole part that are joined by an annular internal portion, second laminations each forming a pole part being mounted between the first laminations in an axial direction of the stator, the first laminations being axially spaced apart from one another at a predetermined spacing according to a required inductance, said stator further comprising teeth extending along a radial direction of the stator and in the space between the adjacent pole parts; wherein the central part further comprises third laminations, and the teeth include first teeth connected to the annular internal portion, and second teeth faulted on the third laminations, the third laminations being stacked with the first laminations and the second laminations. 5. A motor comprising a stator according to claim 1 . 6. A method for manufacturing a stator, comprising an annular central part comprising first laminations and second laminations, each first lamination comprising portions forming a pole part which are joined by an annular internal portion, the second laminations each forming a pole part and being mounted between the first laminations, the method comprising the steps of: determining an axial spacing pitch of the first laminations according to a required inductance of the stator, producing the annular central part by stacking first laminations and the second laminations so that the first laminations are spaced apart from one another at the determined pitch by the second laminations, winding an electrical conductor around at least one of the poles of the bundle of laminations forming the central part; and mounting a yoke around the bundle of laminations after winding the electrical conductor around at least one of the poles of the bundle of laminations forming the central part. 7. The method according to claim 6 , in which the yoke comprises teeth each formed by a lamination portion extending so as to project radially inwards, the yoke being mounted in such a way that each tooth extends halfway between two poles in the bundle of laminations forming the central part.