Crankcase gas separator

The invention claimed is: 1. A crankcase gas separator for removing contaminants in the form of oil mist and soot particles from a crankcase gas produced during operation of an internal combustion engine, said crankcase gas separator comprising: a centrifugal rotor with a plurality of separation discs for separating the contaminants from the crankcase gas, the centrifugal rotor being arranged inside a stationary rotor housing having a gas inlet for conducting crankcase gas to the centrifugal rotor and a gas outlet for discharging the cleaned crankcase gas from the centrifugal rotor; an electric motor arranged for rotation of the centrifugal rotor about a rotational axis; and a gear device arranged between the electric motor and the centrifugal rotor, the gear device having a gear ratio arranged to increase the rotational speed of the centrifugal rotor in relation to the electric motor, wherein the gear device comprises a gear housing delimiting a gear chamber, the gear chamber inside the gear housing being arranged to contain oil for lubricating the gear device, and wherein the separator is arranged with a channel in the centrifugal rotor for communicating said lubricating oil between the gear chamber inside the gear housing and at least one bearing of the centrifugal rotor. 2. The crankcase gas separator according to claim 1 , wherein the electric motor is configured for basic running at constant speed. 3. The crankcase gas separator according to claim 1 , wherein the electric motor is connected to a control unit for changing the rotational speed of the motor and thereby the centrifugal rotor during maintained operation of the internal combustion engine. 4. The crankcase gas separator according to claim 1 , wherein the gear device comprises a toothed gear wheel transmission. 5. The crankcase gas separator according to claim 1 , wherein the gear ratio is arranged to increase the rotational speed of the centrifugal rotor in a range of 2-10 times that of the rotational speed of the electric motor. 6. The crankcase gas separator according to claim 1 , wherein the gear device is arranged to be lubricated by the oil contained in the crankcase gas and separated oil from the crankcase gas is arranged to be drained through a bearing of the centrifugal rotor which is situated at a centrifugal rotor's proximal end to the gear housing, whereby said bearing is lubricated by the separated oil which is drained through the bearing and into the gear chamber inside the gear housing. 7. The crankcase gas separator according to claim 1 , wherein the gear device is arranged to be lubricated by the oil contained in the crankcase gas and separated oil from the crankcase gas is arranged to be drained through a bearing of the centrifugal rotor which is situated at a centrifugal rotor's proximal end to the gear housing, whereby said bearing is lubricated by the separated oil which is drained through the bearing and into the gear chamber inside the gear housing, wherein the central channel in the centrifugal rotor is communicating with a bearing of the centrifugal rotor which is situated at a centrifugal rotor's distal end to the gear housing, and wherein the centrifugal rotor is supported only in the bearings at the proximal and distal end. 8. The crankcase gas separator according to claim 1 , wherein the gear housing is configured as an interface between the rotor housing and the electric motor in such a way that the electric motor is mounted to the rotor housing via the gear housing, wherein the gear housing is provided with a first mounting surface for the electric motor and a second mounting surface for the rotor housing. 9. The crankcase gas separator according to claim 1 , wherein the electric motor includes brushes. 10. The crankcase gas separator according to claim 9 , wherein the brushes are configured as replaceable brush units. 11. The crankcase gas separator according to claim 10 , wherein the electric motor is configured for basic running at constant speed. 12. The crankcase gas separator according to claim 10 , wherein the electric motor is connected to a control unit for changing the rotational speed of the motor and thereby the centrifugal rotor during maintained operation of the internal combustion engine. 13. The crankcase gas separator according to claim 10 , wherein the gear device comprises a toothed gear wheel transmission. 14. The crankcase gas separator according to claim 9 , wherein the electric motor is configured for basic running at constant speed. 15. The crankcase gas separator according to claim 9 , wherein the electric motor is connected to a control unit for changing the rotational speed of the motor and thereby the centrifugal rotor during maintained operation of the internal combustion engine. 16. The crankcase gas separator according to claim 9 , wherein the gear device comprises a toothed gear wheel transmission.