Method for preventing condensate in the oil of an oil-injected compressor and compressor in which such a method is applied

The invention claimed is: 1. A method for preventing condensate in the oil of an oil-injected compressor ( 1 ) comprising an oil-injected compressor element ( 2 ) with an inlet ( 6 ) that can be closed by means of a controlled inlet valve ( 7 ) and an outlet ( 10 ); a drive ( 5 ) for the compressor element ( 2 ); an oil circuit ( 20 ) comprising an oil separator ( 13 ) with an input that is connected to the outlet ( 10 ) of the compressor element ( 2 ) and an output to which a consumer network ( 16 ) for compressed gas can be connected, whereby this oil separator ( 13 ) comprises a pressure vessel ( 12 ) in which the oil ( 21 ) separated from the compressed gas is received and from where oil can be injected into the compressor element ( 2 ); a controller ( 28 ) for the drive of the compressor element ( 2 ) that is such that when the pressure (p) in the consumer network ( 16 ) has reached a set maximum value (pmax), the drive ( 5 ) of the compressor element ( 2 ) is stopped according to a set stop program ( 34 ), wherein before the drive ( 5 ) of the compressor element ( 2 ) is stopped when the maximum pressure (pmax) in the consumer network ( 16 ) has been reached, the method comprises the following steps: determining the temperature (T) of the compressed gas or of the oil; when this temperature (T) is higher than a set fixed or calculated minimum value (Tmin) to minimize condensate in the oil, stopping of the drive ( 5 ) of the compressor element ( 2 ) according to the set stop program ( 34 ); when this temperature (T) is lower than the set fixed or calculated minimum value (Tmin), continuing to run the drive ( 5 ) with an open inlet valve ( 7 ) according to a recirculation program ( 35 ) in the controller ( 28 ) in order to continue compressing gas and recirculate this compressed gas from the oil separator ( 13 ) via a recirculation pipe ( 30 ) to the inlet ( 7 ) of the compressor element ( 2 ) in order to raise the temperature (T) until the fixed or calculated minimum temperature (Tmin) is reached and then stopping the drive ( 5 ), wherein the oil separator ( 3 ) provided with a minimum pressure valve ( 17 ) that is set to a minimum pressure value (pmin), and during the recirculation program ( 35 ) the pressure in the pressure vessel is controlled at a value that is lower than the pressure value (pmin) to which the minimum pressure valve ( 17 ) is set. 2. The method according to claim 1 , wherein the control of the pressure in the oil separator ( 13 ) below the set pressure value (pmin) of the minimum pressure valve ( 17 ) is done by allowing the compressed gas to recirculate from the oil separator ( 13 ) through a calibrated throttle ( 32 ) to the inlet ( 7 ) of the compressor element ( 2 ). 3. The method according to claim 1 , wherein during the execution of the recirculation program ( 35 ) the drive ( 5 ) of the compressor element ( 2 ) is immediately stopped when the temperature (T) is higher than a set maximum temperature (Tmax) that is higher than the set fixed or calculated minimum value (Tmin) of the temperature. 4. The method according to claim 1 , wherein the set minimum temperature (Tmin) is determined periodically or in real time, based on the condensation temperature that is calculated on the basis of a measured ambient temperature and relative humidity. 5. The method according to claim 1 , wherein the temperature (T) that is used for the recirculation program ( 35 ) is the temperature of the compressed gas that is measured or determined at the outlet ( 10 ) of the compressor element ( 2 ). 6. The method according to claim 5 , wherein the oil is guided around by means of a thermostatic valve ( 25 ) in the oil circuit ( 20 ) via an oil cooler ( 27 ) if the temperature of the oil is higher than the temperature (T25) to which the thermostatic valve ( 25 ) is set, and the set minimum temperature (Tmin) is below this temperature (T25) to which the thermostatic valve ( 25 ) is set. 7. The method according to claim 6 , wherein the set maximum temperature (Tmax) is between 5° C. and 20° C. higher than the set fixed or calculated minimum temperature (Tmin). 8. The method according to claim 1 , wherein the drive ( 5 ) of the compressor element ( 2 ) is a drive with variable speed (n) and during the recirculation program ( 35 ) the speed (n) is reduced to a set minimum value (nmin) that is between 0 and 10,000 revolutions per minute. 9. The method according to claim 1 , wherein after execution of the recirculation program ( 35 ) the recirculation pipe ( 30 ) is closed and then the drive ( 5 ) is switched off with a certain stop delay (Δt), whereby this stop delay (Δt) is between 0 and 40 seconds. 10. The method according to claim 9 , wherein the compressor ( 1 ) is provided with a closable release branch ( 18 ) to release the compressed gas from the oil separator ( 13 ) into the environment, and after stopping the drive ( 5 ) in a subsequent step a check is made whether the temperature (T) of the compressed gas or of the oil is higher than the set minimum value (Tmin), and if not the release branch ( 18 ) is opened to release gas. 11. The method according to claim 1 , wherein the stop program ( 34 ) includes decreasing a speed (n) of the compressor element ( 2 ), when the maximum pressure value in the consumer network has been reached, to a set minimum value (nmin), after which, insofar the temperature (T) of the compressed gas or the oil is higher than the set fixed or calculated minimum value (Tmin), the drive ( 5 ) is switched off. 12. The method of claim 1 , wherein the stopping of the drive occurs after a set minimum period (t′min) and/or with any stop delay, according to the set stop program ( 34 ) or after expiry of a set maximum period (tmax) if the minimum temperature (Tmin) has not been reached after this maximum period (tmax). 13. The method according to claim 12 , wherein if during the execution of the recirculation program ( 35 ) the temperature (T) of the compressed gas or the oil does not reach the required minimum temperature (Tmin) after a maximum period (tmax), the stop program is executed. 14. The method according to claim 12 , wherein if during the execution of the recirculation program ( 35 ) the temperature (T) of the compressed gas or the oil does not reach the required minimum temperature (Tmin) after a maximum period (tmax), executing the stop program ( 34 ) and increasing an error counter (f) to indicate how many times this situation has occurred. 15. The method according to claim 12 , wherein a minimum period (t′min) is set between 0 and 60 seconds. 16. The method according to claim 12 , wherein a maximum period (tmax) is set between 0 and 40 minutes. 17. A method for preventing condensate in the oil of an oil-injected compressor ( 1 ) comprising an oil-injected compressor element ( 2 ) with an inlet ( 6 ) that can be closed by means of a controlled inlet valve ( 7 ) and an outlet ( 10 ); a drive ( 5 ) for the compressor element ( 2 ); an oil circuit ( 20 ) comprising an oil separator ( 13 ) with an input that is connected to the outlet ( 10 ) of the compressor element ( 2 ) and an output to which a consumer network ( 16 ) for compressed gas can be connected, whereby this oil separator ( 13 ) comprises a pressure vessel ( 12 ) in which the oil ( 21 ) separated from the compressed gas is received and from where oil can be injected into the compressor element ( 2 ); a controller ( 28 ) for the drive of the compressor element ( 2 ) that is such that when the pressure (p) in the consumer network ( 16 ) has reached a set maximum value (pmax), the drive ( 5 ) of the compr