Method and apparatus for vibration compensation in a piston compressor

The invention claimed is: 1. A method for vibration compensation in a piston compressor, the method comprising: driving the piston compressor by a crankshaft of a three-phase motor controlled by a frequency converter, the piston compressor and three-phase motor coupled without intervening flywheel masses, the piston compressor having a resilient mounting; and determining the current position of the crankshaft of the piston compressor, wherein based on the determined current position of the crankshaft, a torque (M M ) that follows a load moment (M L ) of the piston compressor is prescribed by the frequency converter for the three-phase motor to reduce vibration excitation of the piston-type compressor as a whole, wherein the torque (M M ) prescribed for the three-phase motor corresponds to the first order of a load moment profile of the piston compressor, wherein, to compensate for fluctuations in speed, the torque (M M ) generated by the three-phase motor is produced by the frequency converter with an increased pulse width for a period of time, and wherein, to compensate for fluctuations in speed, a torque requirement to be adjusted according to rotational speed is stored in logic of a control unit implemented by the frequency converter, wherein the current angular position of the crankshaft of the piston compressor is determined by sensors and prescribed to the control unit by the sensors as a current crankshaft position, and wherein a deviation of the load moment (ML) of the piston compressor is set to only approximately follow the torque (M M ) for the three-phase motor, wherein the deviation range is selected from a range of less than 30% and vibration behavior is improved by the vibration compensation by up to 70%. 2. The method of claim 1 , wherein an increase of the torque (M M ) for the three-phase motor is carried out by a corresponding increase of its operating voltage by the frequency converter. 3. The method of claim 1 , wherein, to compensate for fluctuations in speed, the torque (M M ) generated by the three-phase motor is produced by the frequency converter by a variation of the feed voltage and/or a variation of the pulse width. 4. An apparatus for vibration compensation in a piston compressor which is driven by a crankshaft by a three-phase motor controlled by a frequency converter, the apparatus comprising: a control unit that determines the current position of the crankshaft of the piston compressor, wherein, based on this, the frequency converter prescribes a torque (M M ) that corresponds to the load moment (M L ) of the piston compressor for the three-phase motor to reduce vibration excitation of the piston-type compressor as a whole, wherein the torque (M M ) prescribed for the three-phase motor corresponds to the first order of a load moment profile of the piston compressor, wherein, to compensate for fluctuations in speed, the torque (M M ) generated by the three-phase motor is produced by the frequency converter with an increased pulse width for a period of time, and wherein, to compensate for fluctuations in speed, a torque requirement to be adjusted according to rotational speed is stored in logic of the control unit implemented by the frequency converter, wherein the current angular position of the crankshaft of the piston compressor is determined by sensors and prescribed to the control unit by the sensors as a current crankshaft position, and wherein a deviation of the load moment (M L ) of the piston compressor is set to only approximately follow the torque (M M ) for the three-phase motor, wherein the deviation is selected from a range of less than 30% and vibration behavior is improved by the vibration compensation by up to 70%. 5. The apparatus of claim 4 , wherein the control unit is integrated in the frequency converter, which is arranged in or on the three-phase motor. 6. A piston compressor for producing compressed air for a vehicle, the compressor comprising: a piston compressor which is driven by a crankshaft by a three-phase motor controlled by a frequency converter; and an apparatus for vibration compensation in the piston compressor, the apparatus comprising a control unit that determines the current position of the crankshaft of the piston compressor, wherein, based on this, the frequency converter prescribes a torque (M M ) that corresponds to the load moment (M L ) of the piston compressor for the three-phase motor to reduce vibration excitation of the piston-type compressor as a whole, wherein the torque (M M ) prescribed for the three-phase motor corresponds to the first order of a load moment profile of the piston compressor, wherein, to compensate for fluctuations in speed, the torque (M M ) generated by the three-phase motor is produced by the frequency converter with an increased pulse width for a period of time, and wherein, to compensate for fluctuations in speed, a torque requirement to be adjusted according to rotational speed is stored in logic of a control unit implemented by the frequency converter, wherein the current angular position of the crankshaft of the piston compressor is determined by sensors and prescribed to the control unit by the sensors as a current crankshaft position, and wherein a deviation of the load moment (M L ) of the piston compressor is set to only approximately follow the torque (M M ) for the three-phase motor, wherein the deviation is selected from a range of less than 30% and vibration behavior is improved by the vibration compensation by up to 70%.