Stator with radially mounted teeth

The invention claimed is: 1. A stator or rotor for an electric motor or generator comprising a support having a plurality of protrusions distributed about the support; and a plurality of teeth arranged to receive coil windings, wherein each tooth includes a recess with interlocking means formed within the recess for engaging with a protrusion on the support for allowing each tooth to be mounted to a protrusion in a direction perpendicular to a surface of the support and in the direction the protrusion extends away from the surface of the support, wherein each of the plurality of protrusions are resiliently deformable and arranged to engage with interlocking means within the recess of each tooth, wherein the respective interlocking means do not extend beyond the recess formed within the respective teeth. 2. A stator or rotor for an electric motor or generator comprising a circumferential support having a plurality of protrusions distributed about the circumferential support; and a plurality of teeth arranged to receive coil windings, wherein each tooth includes a recess with interlocking means formed within the recess for engaging with a protrusion on the circumferential support for allowing each tooth to be mounted to a protrusion in a radial direction, wherein each of the plurality of protrusions are resiliently deformable and arranged to engage with interlocking means within the recess of each tooth, wherein the respective interlocking means do not extend beyond the recess formed within the respective teeth. 3. A stator or rotor according to claim 2 , wherein the plurality of protrusions extend in a radial direction away from the circumferential support. 4. A stator or rotor according to claim 2 , wherein a resiliently deformable protrusion includes two resiliently deformable elements arranged to engage with interlocking means within the recess of each tooth. 5. A stator or rotor according to claim 4 , wherein the two resiliently deformable elements are formed on an end portion of each of the protrusions. 6. A stator or rotor according to claim 4 , the two resiliently deformable elements include a projection portion on an inner surface that extend towards each other, wherein the projection portions are arranged to latch with a stator tooth engagement element. 7. A stator or rotor according to claim 2 , wherein the circumferential support is formed of a series of laminations. 8. A stator or rotor according claim 2 , wherein each of the plurality of teeth are formed of a series of laminations. 9. A stator or rotor according to claim 2 , wherein glue is placed between the interlocking means and a protrusion. 10. A stator or rotor according to claim 2 , wherein the plurality of teeth are over-moulded prior to receiving coil windings. 11. A stator or rotor according to claim 2 , wherein the circumferential support has a recess on at least one side of a protrusion in which a side element of a tooth is mounted within to inhibit tangential movement of the tooth. 12. A stator or rotor according to claim 2 , wherein the plurality of protrusions and plurality of teeth extend from the circumferential support in a radial direction away from a center point of the circumferential support. 13. A stator or rotor according to claim 3 , wherein the plurality of protrusions and plurality of teeth extend from the circumferential support in a radial direction towards a center point of the circumferential support. 14. A stator or rotor according to claim 2 , further comprising a mounting ring arranged to be mounted to the circumferential support and be coupled to coil windings placed on the plurality of teeth. 15. A stator or rotor according to claim 14 , further comprising an inverter arranged to be mounted to the mounting ring to allow an electrical connection to be established between the inverter and at least one coil winding placed on a tooth. 16. An electric motor having a stator or rotor according to claim 2 . 17. A method of manufacturing a stator or rotor comprising providing a plurality of teeth, wherein each tooth includes a recess with interlocking means formed within the recess, wherein the respective interlocking means do not extend beyond the recess formed within the respective teeth, and a circumferential support having a plurality of protrusions circumferentially distributed about the support, wherein each of the plurality of protrusions are resiliently deformable and arranged to engage with interlocking means within the recess of each tooth; placing coil windings around each of the plurality of teeth; and radially pressing each of the plurality of teeth on to a respective protrusion formed on the circumferential support so that the interlocking means formed within the recess of each tooth engage with the respective protrusion to inhibit radial movement of the tooth with respect to the circumferential support.