Oscillating electric power tool with balanced armature shaft

What is claimed is: 1. A method for balancing an electric motor for an electric power tool having an armature shaft, an armature, a fan wheel, and an eccentric being arranged on the armature shaft, the method comprising: providing an armature shaft with an eccentric; mounting an armature stack of sheets including armature windings on said armature shaft, thereby defining a first side of said armature shaft and a second side of said armature shaft; mounting a fan wheel on said armature shaft on said first side of said armature shaft; mounting a first balancing mass in proximity to said eccentric on said first side of said armature shaft; mounting a second balancing mass on said second side of said armature shaft; adjusting said second balancing mass on said armature shaft for compensating a couple unbalance caused by an axial distance between said eccentric and said first balancing mass; clamping said armature shaft on a balancing machine; driving said armature shaft on said balancing machine; generating signals for specifying size and position of notch(es) to be made on said armature shaft for balancing said armature shaft statically and dynamically; and providing notch(es) on said armature according to said signals. 2. The method of claim 1 , further comprising the step of mounting an eccentric bearing on said eccentric, before said balancing step on said balancing machine is performed. 3. The method of claim 1 , further comprising the step of mounting an armature bearing on said first side and mounting an armature bearing on said second side of said armature shaft before said balancing step on said balancing machine is performed. 4. The method of claim 1 , wherein a balancing disk is utilized as said first balancing mass. 5. The method of claim 1 , wherein said first balancing mass is mounted on said armature shaft adjacent to said eccentric. 6. The method claim 1 , wherein said second balancing mass is configured as a balancing disk made of an electrically non-conducting material. 7. The method claim 1 , wherein said second balancing mass is configured as a balancing disk made of an electrically non-conducting plastic material. 8. A method for balancing an EC-motor for an electric power tool having an armature shaft, an armature, a fan wheel, and an eccentric being arranged on said armature shaft, the method comprising: providing an armature shaft with an eccentric; mounting an armature stack of sheets including armature windings on said armature shaft, thereby defining a first side of said armature shaft and a second side of said armature shaft; mounting a balancing ring on said armature shaft on said first side adjacent to said armature stack of sheets; mounting a balancing ring on said armature shaft on said second side adjacent to said armature stack of sheets; mounting a fan wheel on said armature shaft on said first side of said armature shaft; mounting a first balancing mass in proximity to said eccentric on said first side of said armature shaft; mounting a second balancing mass on said second side of said armature shaft; adjusting said second balancing mass on said armature shaft for compensating a couple unbalance caused by an axial distance between said eccentric and said first balancing mass; clamping said armature shaft on a balancing machine; driving said armature shaft on said balancing machine for balancing; generating signals for specifying size and position of notches to be made on said balancing rings for balancing said armature shaft statically and dynamically; and providing notches on said balancing rings according to said signals. 9. The method claim 8 , wherein said second balancing mass is configured as a balancing disk made of an electrically non-conducting plastic material.