Electric linear motor for an elevator and method for controlling thereof

The invention claimed is: 1. An electric linear motor for an elevator, the electric linear motor comprising at least one stator beam and at least one mover, wherein said at least one stator beam comprises at least two stators on opposite sides of the stator beam, and the at least one mover is in electromagnetic engagement with said at least two stators and configured to be moved relative to said stator beam, wherein said at least one mover comprises: at least two units of electromagnetic components arranged on opposite sides of the stator beam to face said at least two stators for controlling the movement and the lateral position of the mover with respect to said stator beam; wherein each of the at least two units of electromagnetic components comprise at least two windings for generating magnetic fields wherein said at least two units of electromagnetic components arranged on the opposite sides of the stator beam are displaced with respect to each other in the direction defined by the stator beam for controlling tilting of the mover with respect to the stator beam. 2. The electric linear motor according to claim 1 , wherein the at least two units of electromagnetic components are connected electrically in series or in parallel with respect to each other. 3. The electric linear motor according to claim 1 , wherein each one of the at least two units of electromagnetic components are independently controllable by electrical drives. 4. The electric linear motor according to claim 3 , wherein at least one of the at least two units of electromagnetic components is coupled to an H-bridge inverter. 5. The electric linear motor according to claim 1 , wherein the motor comprises at least four units of electromagnetic components arranged such that two of the at least four units are arranged on opposite side of the stator beam with respect to other two of the at least four units to face said at least two stators for controlling the movement and the position of the mover with respect to said stator beam. 6. A method for controlling operation of an electric linear motor, wherein the electric linear motor comprises at least one stator beam and at least one mover, wherein said at least one stator beam comprises at least two stators on opposite sides of the stator beam, and the at least one mover is in electromagnetic engagement with said at least two stators and configured to be moved relative to said stator beam, wherein the method comprises determining a magnitude of air gap between the mover and the at least one stator beam, and controlling said magnitude of air gap by at least two units of electromagnetic components arranged on opposite sides of the stator beam to face the at least two stators so as to control lateral position of the mover with respect to the at least one stator beam. 7. The method according to claim 6 , wherein the determining of the magnitude of air gap comprises determining magnitudes of air gaps between the mover and the at least one stator beam at least at two locations. 8. The method according to claim 7 , wherein each one of said two locations are on opposite sides of the stator beam with respect to each other. 9. The method according to claim 6 , wherein the magnitude or magnitudes of air gap or gaps are determined in a direction parallel relative to the direction in which the units of electromagnetic components and stators are facing each other. 10. The method according to claim 6 , wherein said locations are displaced in the direction defined by the stator beam for determining tilting of the mover with respect to the at least one stator beam. 11. The method according to claim 6 , wherein the controlling of the magnitude or magnitudes of said air gap or gaps is performed by controlling the current of said units of electromagnetic components. 12. The method according to claim 7 , wherein the at least two units of electromagnetic components are displaced in the direction defined by the stator beam with respect to each other, and in the method the controlling of said magnitudes of air gaps comprises controlling the current of said units of electromagnetic components for controlling tilting of the mover with respect to the stator beam. 13. The method according to claim 6 , wherein the electric linear motor is a three-phase electric motor, and the method comprises determining a direct component of motor current, and the controlling of the magnitudes of air gap or gaps comprises controlling the direct component of motor current for controlling the lateral position of the mover with respect to the stator beam. 14. The method according to claim 6 , wherein the determining of the magnitude of air gap is performed by utilizing an inductive proximity sensor at at least two locations. 15. A computer program product for controlling operation of an electric linear motor comprising program instructions wherein when executed by an elevator control unit cause the elevator control unit to perform the method according to claim 6 . 16. An elevator control unit for controlling operation of an electric linear motor of an elevator, the elevator control unit comprising: at least one processor, and at least one memory storing at least one portion of computer program code, wherein the at least one processor being configured to cause the elevator control unit at least to perform: determine a magnitude of air gap between a mover and the at least one stator beam, and control said magnitude of air gap by at least two units of electromagnetic components facing the at least two stators. 17. An elevator for controlling operation of an electric linear motor of the elevator, wherein the elevator comprises an electric linear motor, the electric linear motor comprising at least one stator beam and at least one mover, wherein said at least one stator beam comprises at least two stators on opposite sides of the stator beam, and the at least one mover is in electromagnetic engagement with said at least two stators and configured to be moved relative to said stator beam, determining means for determining magnitudes of air gaps on said opposite sides of the stator beam, and an elevator control unit, wherein the elevator control unit configured to at least to: determine a magnitude of air gap between the mover and the at least one stator beam, and control said magnitude of air gap by at least two units of electromagnetic components facing the at least two stators, and wherein the elevator control unit, the determining means and the electric linear motor or an electrical drive operating the motor are communicatively coupled to each other. 18. The elevator according to claim 17 , wherein said at least two units of electromagnetic components arranged on the opposite sides of the stator beam are displaced with respect to each other in the direction defined by the stator beam for controlling tilting of the mover with respect to the stator beam.