Method for manufacturing of a rotor

The invention claimed is: 1. A method for manufacturing a screw rotor for a compressor, a blower, a vacuum pump, or an expander, the method comprising the following operations: clamping a workpiece into a grinding machine to perform a grinding operation, the workpiece having been partially processed so that before being clamped into the grinding machine, along an axis of the workpiece, the workpiece has a general cross-sectional shape of a rotor; performing one or more cylindrical grinding operations including cylindrical grinding with one or more cylindrical grinding disks including a first cylindrical grinding disk and a second cylindrical grinding disk, wherein one or more sections of the workpiece are ground to respective one or more diameters to form one or more rotor shaft sections; performing one or more profile grinding operations, wherein, in said one or more profile grinding operations, with one or more profile grinding disks including a coarse profile grinding disk and a fine profile grinding disk, a section of the workpiece is profiled to form a rotor body of the screw rotor; wherein during the manufacture of the screw rotor in the grinding machine, the workpiece is not unclamped and both the cylindrical grinding operations and the profile grinding operations are executed with the same grinding machine, wherein performing the one or more cylindrical grinding operations includes a first cylindrical grinding operation that includes cylindrically grinding with the first cylindrical grinding disk a first section on at least a first end of the workpiece to obtain a cylindrical clamping surface that is centred with respect to a centre line of the workpiece along the axis of the workpiece, wherein performing the one or more cylindrical grinding operations further includes a second cylindrical grinding operation that includes cylindrically grinding with the first or second cylindrical grinding disks a second section on at least a second end of the workpiece, the second end of the workpiece being opposite from the first end of the workpiece, to obtain a cylindrical support surface that is centred with respect to the centre line of the workpiece along the axis of the workpiece, and wherein performing the one or more profile grinding operations includes clamping the workpiece at the first end at the cylindrical clamping surface to provide rotational support to the workpiece during the profile grinding by controlling rotation of the workpiece during the profile grinding operations to form the rotor body of the screw rotor, wherein performing the one or more profile grinding operations includes a first coarse profile grinding operation using the coarse profile grinding disk to obtain on the workpiece a coarsely ground rotor body having a coarsely finished spiral toothing, wherein, after said first coarse profile grinding operation, said method further comprises performing a third cylindrical grinding operation that includes grinding said one or more rotor shaft sections or grinding an end face of the rotor body, wherein after said third cylindrical grinding operation is performed, the one or more profile grinding operations includes a second profile grinding operation that includes finely grinding the profile of the rotor body using the fine profile grinding disk during a fine profile grinding operation to obtain on the workpiece a finely ground rotor body having a finely finished spiral toothing, and wherein said providing rotational support to the workpiece during said one or more profile grinding operations includes driving the workpiece around the axis of the workpiece by a clamp clamped at said cylindrical clamping surface during said first profile grinding operation and during said second profile grinding operation. 2. The method according to claim 1 , wherein the clamping of the workpiece comprises the steps of making a centre hole in each of the two ends of the workpiece and clamping the workpiece in between two centre points of the grinding machine. 3. The method according to claim 1 , further comprising a deburring operation, the deburring operation being performed with said grinding machine. 4. The method according to claim 3 , wherein during the manufacture of a rotor according to the method, a universal grinding spindle of the grinding machine is used, and wherein a deburring brush is placed on the universal grinding spindle to perform said deburring operation. 5. The method according to claim 1 , wherein during the manufacture of a rotor according to the method, a universal grinding spindle of the grinding machine is used, wherein the first or the second cylindrical grinding disk is removed from the universal grinding spindle and the coarse or fine profile grinding disk is placed on the universal grinding spindle. 6. The method according to claim 5 , wherein a flushport or a set of flushports is exchanged or positioned differently between two grinding operations. 7. The method according to claim 6 , wherein in the profile and cylindrical grinding operations a flush is applied by using the flushport or the set of flushports, the flushport or the set of flushports being mounted on the grinding machine beforehand such that a flush can be projected to the workpiece in the vicinity of the coarse or fine profile grinding disks and first or second cylindrical grinding disks in order to clean the grinding disk concerned, to provide a coolant, to provide a lubricant, and/or to extinguish sparks during grinding. 8. The method according to claim 1 , wherein during the manufacture of a rotor with the method, a first grinding operation is performed using a first grinding disk that is mounted beforehand on a first grinding spindle of the grinding machine, and a second grinding operation is performed using a second grinding disk that is mounted beforehand on a second grinding spindle of the grinding machine. 9. The method according to claim 1 , wherein the method is fully automated. 10. The method according to claim 1 , further comprising fitting a support stay to the workpiece near the second end by the support stay being affixed around the cylindrical support surface to support the workpiece in a rotating way, wherein the support stay is supported on bearings or the stay is a sliding stay that is fitted around the cylindrical support surface, and wherein the support stay is arranged to support the workpiece to accommodate forces that occur during the profile grinding by preventing or limiting bending of the workpiece during the profile grinding. 11. The method according to claim 1 , wherein said third cylindrical grinding operation further includes grinding one or both end faces of the rotor body. 12. The method according to claim 1 , wherein during said one or more cylindrical grinding operations, the workpiece is obliquely ground with first or second cylindrical grinding disks or a third cylindrical grinding disk that has a profile such that a part of the rotor shaft section is ground to the predetermined diameter and a radially oriented surface is ground on the rotor shaft section at the same time. 13. The method according to claim 1 , wherein the third cylindrical grinding operation includes grinding said one or more rotor shaft sections. 14. A method for manufacturing a screw rotor for a compressor, a blower, a vacuum pump, or an expander, the method comprising the following operations: clamping a workpiece into a grinding machine to perform a grinding operation, the workpiece having been partially processed so that before being clamped into the grinding machine, along an axis