Method for controlling a pressure in a crankcase

The invention claimed is: 1. A method for controlling a pressure in a crankcase of an internal combustion engine with a crankcase venting device, the crankcase venting device including a suction line via which a blow-by gas is removable from the crankcase, a pumping device, and an oil mist separating device, the pumping device and the oil mist separating device arranged in the suction line, the method comprising: controlling a rotational speed of an electric drive in at least one of a closed-loop manner and an open-loop manner, the electric drive configured to drive the pumping device; adjusting the pressure in the crankcase via manipulating the rotational speed of the electric drive; and inferring the pressure in the crankcase via evaluating at least one performance parameter of the electric drive. 2. The method according to claim 1 , further comprising: comparing an actual current value corresponding to a current supplied to the electric drive with a current setpoint; and determining a rotational speed correction value for the rotational speed of the electric drive when there is a deviation between the actual current value and the current setpoint. 3. The method according to claim 2 , wherein the current setpoint corresponds to a value for the current supplied to the electric drive which maintains the rotational speed of the electric drive at a given rotational speed and the pressure in the crankcase at a target pressure. 4. The method according to claim 1 , further comprising: determining a torque generated by the electric drive and acting on the pumping device; determining an actual rotational speed value of the electric drive, which corresponds to a rotational speed of the pumping device; and determining a pressure differential generated by the pumping device and a volume flow flowing through the pumping device from the torque acting on the pumping device and the actual rotational speed value of the electric drive. 5. The method according to claim 1 , further comprising: determining a drop in a pressure at the oil mist separating device from a volume flow flowing through the pumping device; and inferring the pressure in the crankcase from the drop in the pressure at the oil mist separating device and a pressure differential generated by the pumping device. 6. The method according to claim 4 , further comprising: determining a control deviation for the pressure in the crankcase; and determining a rotational speed correction value for the rotational speed of the electric drive based on the control deviation for the pressure in the crankcase. 7. The method according to claim 4 , further comprising: determining a notional blow-by gas volume flow generated by the internal combustion engine from a rotational speed of the internal combustion engine and a torque generated by the internal combustion engine; and determining an estimated rotational speed value based on the notional blow-by gas volume flow generated by the combustion engine such that a notional volume flow displaced by the pumping device matches the notional blow-by gas volume flow generated by the combustion engine. 8. The method according to claim 1 , further comprising supplying a rotational speed setpoint including a rotational speed correction value to a control device configured to control the rotational speed of the electric drive in the at least one of the open-loop manner and the closed-loop manner. 9. The method according to claim 7 , further comprising: compiling a rotational speed setpoint from the estimated rotational speed value and a rotational speed correction value; and supplying the rotational speed setpoint including the rotational speed correction value to a control device configured to control the rotational speed of the electric drive in the at least one of the open-loop manner and the closed-loop manner. 10. The method according to claim 8 , further comprising: detecting a switch of a pressure control valve of the crankcase venting device from a performance parameter of the electric drive, the pressure control valve arranged in the suction line; and determining the rotational speed correction value based at least partially on a switching behavior of the pressure control valve. 11. An internal combustion engine comprising: a crankcase having an internal pressure and including a crankcase venting device; the crankcase venting device including a suction line via which a blow-by gas is removable from the crankcase, a pumping device driven by an electric drive, and an oil mist separating device, the pumping device and the oil mist separating device arranged in the suction line; and a control device configured to control a rotational speed of the electric drive in at least one of an open-loop manner and a closed-loop manner based on at least one performance parameter of the electric drive; wherein the internal pressure of the crankcase is controllable via manipulating the rotational speed of the electric drive. 12. The method according to claim 4 , wherein determining the pressure differential generated by the pumping device and the volume flow flowing through the pumping device includes using a characteristic curve of the pumping device. 13. A method for controlling a pressure in a crankcase of an internal combustion engine with a crankcase venting device, the crankcase venting device including a suction line via which a blow-by gas is removable from the crankcase, a pumping device, and an oil mist separating device, the pumping device and the oil mist separating device arranged in the suction line, the method comprising: controlling a rotational speed of an electric drive in at least one of a closed-loop manner and an open-loop manner, the electric drive configured to drive the pumping device; adjusting the pressure in the crankcase via manipulating the rotational speed of the electric drive; inferring the pressure in the crankcase via evaluating at least one performance parameter of the electric drive; comparing an actual current value corresponding to a current supplied to the electric drive with a current setpoint; determining a rotational speed correction value for the rotational speed of the electric drive when there is a deviation between the actual current value and the current setpoint; and supplying a rotational speed setpoint including the rotational speed correction value to a control device configured to control the rotational speed of the electric drive in the at least one of the closed-loop manner and the open-loop manner. 14. The method according to claim 13 , further comprising: detecting a switch of a pressure control valve of the crankcase venting device from a performance parameter of the electric drive, the pressure control valve arranged in the suction line; and determining the rotational speed correction value based at least partially on a switching behavior of the pressure control valve. 15. The method according to claim 14 , wherein the current setpoint corresponds to a value for the current supplied to the electric drive which maintains the rotational speed of the electric drive at a given rotational speed, and wherein the pressure in the crankcase corresponds to a target pressure. 16. The internal combustion engine according to claim 11 , wherein the crankcase venting device further includes an actuatable pressure control valve arranged in the suction line between the crankcase and the pumping device, wherein the control device is further configured to control the rotational speed of the electric drive based on a switching behavior of the pressure contro