Elevator with linear motor

The invention claimed is: 1. An elevator, comprising: at least one elevator shaft; at least one elevator car traveling in said at least one elevator shaft; at least one elevator motor comprising at least one linear stator located vertically along the at least one elevator shaft and at least one mover located in connection with the at least one elevator car and co-acting with the at least one linear stator; and a vertical stator beam supporting the at least one linear stator, the vertical stator beam having four side faces carrying ferromagnetic poles of the at least one linear stator spaced apart by a pitch, wherein the at least one mover comprises counter-faces facing said four side faces of the vertical stator beam, electro-magnetic components of the at least one mover being located in said counter-faces, wherein the at least one mover includes at least two arms corresponding to the four side faces of the vertical stator beam, and each arm has a counter-face carrying counter-face electro-magnetic components that face and co-act with the corresponding ferromagnetic poles of the corresponding side faces, wherein the at least one elevator motor is a flux-switching permanent magnet motor (FSPM), wherein at least two side faces of the four side faces are provided with stator poles having the same pitch and the vertical position of the stator poles of both side faces is mutually offset, and wherein the four side faces of the vertical stator beam have the same pitch, and the pitch of the opposite side faces is identical whereas the pitch of the side faces extending in right angles is offset in a vertical direction. 2. The elevator according to claim 1 , wherein the at least one stator and the at least one mover form a guide for the travel of the at least one elevator car in the at least one elevator shaft. 3. The elevator according to claim 2 , wherein ferromagnetic stator poles of the stator beam and the electro-magnetic components of the at least one mover form a magnetic bearing for the guide and suspension of the at least one elevator car. 4. The elevator according to claim 1 , wherein the at least one mover has separate magnetic bearing coils which are controlled independent of electro-magnetic mover components of the linear motor, which are controlled to regulate an air gap of the linear motor, which separate magnetic bearing coils co-act with the at least one linear stator. 5. The elevator according to claim 1 , wherein the stator beam comprises a vertical support structure for at least two stators and at least one fastening element to fix the support structure to the at least one elevator shaft. 6. The elevator according to claim 5 , wherein the at least one mover has a vertically extending C-profile or U-Profile surrounding the stator beam. 7. The elevator according to claim 6 , wherein the at least one mover has four counter-faces arranged in a rectangular configuration and facing the four side faces of the stator beam, wherein each of the counter-faces comprises the electro-magnetic components of the at least one mover and the opening in the C-profile is configured to accommodate (the) fastening element of the stator beam. 8. The elevator according to claim 1 , wherein the cross section of the stator beam is rectangular. 9. The elevator according to claim 1 , wherein at least two elevator cars are configured to travel within one elevator shaft. 10. The elevator according to claim 1 , having at least two elevator shafts located side by side and being connected at least at their top and/or bottom ends by a horizontal passage, whereby the two elevator shafts are configured to accommodate more than two elevator cars traveling therein. 11. The elevator according to claim 10 , wherein in the horizontal passage(s) a horizontal moving mechanism is provided for moving the at least one elevator car in horizontal direction between the at least two elevator shafts. 12. The elevator according to claim 11 , wherein the horizontal moving mechanism comprises a horizontal moving means mounted in connection with the at least one elevator car, comprising rollers, whereby at least one of the rollers is driven, and which horizontal moving mechanism comprises at least one horizontal guide track(s) located in the horizontal passage and extending into the at least two elevator shafts on both sides of the horizontal passage. 13. The elevator according to claim 10 , wherein the at least two elevator shafts and their upper and lower horizontal passages form a closed traveling path. 14. The elevator according to claim 10 , wherein landing doors of the elevator are located in horizontal passages between the at least two elevator shafts. 15. The elevator according to claim 10 , wherein the two elevator cars are rucksack suspended with guide rails and stator beams located on shaft sides which are opposite to the horizontal passages. 16. The elevator according to claim 10 , wherein the at least one mover is in a direction of the horizontal passages releasable from the stator beam. 17. The elevator according to claim 10 , wherein at least a part of the guide rollers of the at least one elevator car is releasable from a corresponding guide rail. 18. The elevator according to claim 10 , wherein a busbar with vertical conductor rails is located along the length of the at least one elevator shaft, and the at least one elevator car has at least one contactor connecting the conductor rails. 19. The elevator according to claim 10 , wherein the at least one elevator car has a wireless connection to a elevator control. 20. The elevator according to claim 10 , wherein the at least one elevator car has a power source, which is configured as back-up power source for the at least one mover. 21. The elevator according to claim 1 , being a high rise elevator with a vertical length of more than 50 m. 22. The elevator according to claim 1 , wherein the at least one elevator car has at least two movers located above each other and spaced apart in an upper and lower half of the at least one elevator car. 23. The elevator according to claim 1 , wherein the ferromagnetic poles are teeth provided on a side face of a ferromagnetic stator rod, the teeth being spaced apart by teeth gaps. 24. The elevator according to claim 1 , wherein the at least one linear stator does not have any permanent magnets and does not have any windings. 25. An elevator, comprising: at least one elevator shaft; at least one elevator car traveling in said at least one elevator shaft; at least one elevator motor comprising at least one linear stator located vertically along the at least one elevator shaft and at least one mover located in connection with the at least one elevator car and co-acting with the at least one linear stator; and a vertical stator beam supporting the at least one linear stator, the vertical stator beam having at least one side face carrying ferromagnetic poles of the at least one linear stator spaced apart by a pitch, wherein the at least one mover comprises at least one counter-face facing said at least one side face of the vertical stator beam, electro-magnetic components of the at least one mover being located in said at least one counter-face, wherein the vertical stator beam includes at least two side faces each carrying ferromagnetic poles, the mover includes at least two arms corresponding to the two side faces of the vertical stator beam, and each arm has a