Oil-injected multistage compressor device and method for controlling a compressor device

The invention claimed is: 1. An oil-injected multistage compressor device comprising: a low-pressure stage compressor ( 2 ) with a gas inlet ( 4 a ) for gas to be compressed and a gas outlet ( 5 a ) for low-pressure compressed gas; and a high-pressure stage compressor ( 3 ) with a gas inlet ( 4 b ) for low-pressure compressed gas and a gas outlet ( 5 b ) for high-pressure compressed gas, wherein the gas outlet ( 5 a ) of the low-pressure stage compressor ( 2 ) is connected to the gas inlet ( 4 b ) of the high-pressure stage compressor ( 3 ) via a conduit ( 6 ), wherein the oil-injected multistage compressor device further comprises a regulatable intercooler ( 9 ) that is connected to the conduit ( 6 ) between the low-pressure stage compressor ( 2 ) and the high-pressure stage compressor ( 3 ) and is configured to regulate a temperature at the gas inlet ( 4 b ) of the high-pressure stage compressor ( 3 ) to be above a dew point, wherein: the regulatable intercooler ( 9 ) comprises a regulatable air cooler or a regulatable water cooler, and the regulatable intercooler ( 9 ) is configured in such a way that temperature of air or water is changed by using a bypass conduit ( 16 ) or by screening off a part of the regulatable intercooler ( 9 ). 2. The oil-injected multistage compressor device according to claim 1 , further comprising a controller ( 11 ) and at least one sensor, wherein the controller ( 11 ) is configured to determine the dew point based on an output of the at least one sensor. 3. The oil-injected multistage compressor device according to claim 1 , further comprising a controller ( 11 ) and a sensor, wherein the controller ( 11 ) is configured to determine the dew point based on an output of the sensor, wherein the sensor is configured to measure humidity at the gas inlet ( 4 b ) of the high-pressure stage compressor ( 3 ). 4. The oil-injected multistage compressor device according to claim 1 , further comprising a controller ( 11 ) and a sensor, wherein the controller ( 11 ) is configured to determine the dew point based on an output of the sensor, wherein the sensor is configured to measure the temperature at the gas inlet ( 4 b ) of the high-pressure stage compressor ( 3 ). 5. The oil-injected multistage compressor device according claim 1 , wherein the regulatable intercooler ( 9 ) comprises the regulatable air cooler, the regulatable air cooler is regulatable by a fan, whereby airflow is regulated by adjusting a speed of the fan. 6. The oil-injected multistage compressor device according to claim 1 , wherein the regulatable intercooler ( 9 ) comprises the regulatable water cooler, the regulatable water cooler is configured in such a way that it is regulatable by a valve for regulating flow of the water. 7. The oil-injected multistage compressor device according to claim 1 , wherein the regulatable intercooler ( 9 ) is connected to a heat pump ( 10 ). 8. The oil-injected multistage compressor device according to claim 7 , wherein the heat pump ( 10 ) is regulatable. 9. The oil-injected multistage compressor device according to claim 1 , wherein an oil-injection ( 15 ) is provided in the conduit ( 6 ) downstream from the regulatable intercooler ( 9 ). 10. The oil-injected multistage compressor device according to claim 1 , further comprising a controller ( 11 ) for regulating the regulatable intercooler ( 9 ). 11. A method for controlling an oil-injected multistage compressor device ( 1 ), comprising the following steps: determining a dew point at a gas inlet ( 4 b ) of a high-pressure stage compressor ( 3 ) of the oil-injected multistage compressor device ( 1 ) based on an output of at least one sensor; regulating an intercooler ( 9 ) that is provided upstream of the high-pressure stage compressor, so that a temperature at the gas inlet ( 4 b ) of the high-pressure stage compressor ( 3 ) is above the dew point, wherein the regulating the intercooler ( 9 ) comprises: regulating an air cooler or a water cooler of the intercooler ( 9 ), and using a bypass conduit ( 16 ) that bypasses the intercooler ( 9 ), or screening off a part of the intercooler ( 9 ). 12. The method of claim 11 , wherein the dew point is determined by measuring of one or more environmental parameters. 13. The method of claim 12 , wherein the one or more environmental parameters include at least one from among pressure, temperature, and humidity. 14. The method of claim 11 , wherein the dew point is determined by measuring humidity at the gas inlet ( 4 b ) of the high-pressure stage compressor ( 3 ). 15. The method of claim 11 , wherein the dew point is calculated by monitoring a course of the temperature at the gas inlet ( 4 b ) of the high-pressure stage compressor ( 3 ). 16. The method according to claim 11 , wherein the intercooler ( 9 ) is regulated by a controller ( 11 ) that regulates the intercooler ( 9 ) so that the temperature at the gas inlet ( 4 b ) of the high-pressure stage compressor ( 3 ) is above the dew point.