Electric machine

The invention claimed is: 1. An electric machine comprises a rotor, a stator surrounding the rotor and a support structure, said stator having a longitudinal centre axis, a horizontal centre plane passing through the centre axis of the stator, and a vertical centre plane passing through the centre axis of the stator, said stator being supported on the support structure with support elements located symmetrically on opposite sides of the vertical centre plane, said stator comprising a cylindrical stator core having a laminated structure and slots for a stator winding, wherein: the stator comprises a stator frame surrounding the stator core, said stator frame comprising two opposite end constructions located at an axial distance from each other and at least one frame plate located between the end constructions, each frame plate is formed of four separate sectors so that two frame plate sectors are located symmetrically at both sides of the vertical centre line in upper corners of the stator frame and two frame plate sectors are located symmetrically at both sides of the vertical centre line in lower corners of the stator frame, the two sectors of frame plates in the upper corners of the stator frame being connected to each other with a connection part in order to form a first frame plate package, a support element is located between each end construction and the adjacent frame plate and between adjacent frame plates, said support elements being made of cast iron and being attached on the one hand to the end constructions and the frame plate with fastening means based on a compression joint and on the other hand to the support structure with fastening means based on a compression joint, whereby the stator frame becomes attached to the support structure via the support elements. 2. An electric machine according to claim 1 , wherein the support elements and the frame plates in each lower corner of the stator frame are attached to each other in order to form a support element package, whereby each end of the support element package is attached to a respective end construction of the stator frame. 3. An electric machine according to claim 2 , wherein the stator frame comprises further first intermediate parts located symmetrically at opposite sides of the vertical centre plane in lowermost corners of the stator frame. 4. An electric motor according to claim 3 , wherein the stator core is attached to the stator frame with fastening brackets having a first end and a second end, each end having at least one opening, whereby the first end is attached to the stator frame and the second end is attached to the stator core by means of fastening means based on a compression joint, said fastening means passing through the openings in the fastening brackets, whereby the openings and the fastening means are dimensioned to allow the stator core to be centralized in the radial direction and the axial direction in relation to the stator frame before the fastening means are tightened in order to lock the stator core to the stator frame. 5. An electric motor according to claim 2 , wherein the stator core is attached to the stator frame with fastening brackets having a first end and a second end, each end having at least one opening, whereby the first end is attached to the stator frame and the second end is attached to the stator core by means of fastening means based on a compression joint, said fastening means passing through the openings in the fastening brackets, whereby the openings and the fastening means are dimensioned to allow the stator core to be centralized in the radial direction and the axial direction in relation to the stator frame before the fastening means are tightened in order to lock the stator core to the stator frame. 6. An electric machine according to claim 1 , wherein the four frame plate sectors are expanded so that their edges attach each other forming a continuous annular frame plate surrounding the stator core. 7. An electric machine according to claim 6 , wherein the stator frame comprises further first intermediate parts located symmetrically on opposite sides of the vertical centre plane in lowermost corners of the stator, a first intermediate part being located between each end construction and the adjacent frame plate and between adjacent frame plates. 8. An electric machine according to claim 7 , wherein the stator frame comprises further second intermediate parts located symmetrically on opposite sides of the vertical centre plane in upper corners of the stator, a second intermediate part being located between each end construction and the adjacent frame plate and between adjacent frame plates. 9. An electric motor according to claim 7 , wherein the stator core is attached to the stator frame with fastening brackets having a first end and a second end, each end having at least one opening, whereby the first end is attached to the stator frame and the second end is attached to the stator core by means of fastening means based on a compression joint, said fastening means passing through the openings in the fastening brackets, whereby the openings and the fastening means are dimensioned to allow the stator core to be centralized in the radial direction and the axial direction in relation to the stator frame before the fastening means are tightened in order to lock the stator core to the stator frame. 10. An electric machine according to claim 6 wherein the stator frame comprises further second intermediate parts located symmetrically on opposite sides of the vertical centre plane in upper corners of the stator, a second intermediate part being located between each end construction and the adjacent frame plate and between adjacent frame plates. 11. An electric motor according to claim 6 , wherein the stator core is attached to the stator frame with fastening brackets having a first end and a second end, each end having at least one opening, whereby the first end is attached to the stator frame and the second end is attached to the stator core by means of fastening means based on a compression joint, said fastening means passing through the openings in the fastening brackets, whereby the openings and the fastening means are dimensioned to allow the stator core to be centralized in the radial direction and the axial direction in relation to the stator frame before the fastening means are tightened in order to lock the stator core to the stator frame. 12. An electric machine according to claim 11 , wherein the fastening brackets comprises two branches that are perpendicular to each other, whereby a first branch forms a first end of the fastening bracket and a second branch forms a second end of the support bracket. 13. An electric motor according to claim 1 , wherein the stator core is attached to the stator frame with fastening brackets having a first end and a second end, each end having at least one opening, whereby the first end is attached to the stator frame and the second end is attached to the stator core by means of fastening means based on a compression joint, said fastening means passing through the openings in the fastening brackets, whereby the openings and the fastening means are dimensioned to allow the stator core to be centralized in the radial direction and the axial direction in relation to the stator frame before the fastening means are tightened in order to lock the stator core to the stator frame. 14. An electric machine according to claim 13 , wherein the fastening brackets comprises two branches that are perpendicular to each other, whereby a first branch forms a first end of the fastening bracket and a second branch forms a se