Pneumatically controlled valve unit, valve system, and method of operating a valve unit

The invention claimed is: 1. A pneumatically controlled valve unit having a main valve for controlling a fluid flow of a fluid to be dosed, the valve unit comprising: a piston shiftably mounted in a valve chamber, operating against a return device, and connected to a valve closing body of the main valve to open and close the main valve, wherein the piston delimits a pressure chamber within the valve chamber such that the piston can be shifted against the return device by pressurizing the pressure chamber, wherein a position sensor is provided which is set up to detect the position of the piston in the valve chamber, wherein one respective pressure line leads from the pressure chamber to a pressure fluid port and a ventilation port, and an aeration valve is arranged in one pressure line and a ventilation valve is arranged in the further pressure line, wherein a control unit is provided which is set up to switch the aeration valve and the ventilation valve on the basis of the position of the piston detected by the position sensor to regulate a pressure in the pressure chamber for shifting the piston, wherein the control unit is set up to close the aeration valve or the ventilation valve as soon as the piston is in the open position or in the closed position, and such that the pressure in the pressure chamber does not rise up to the system pressure of a connected compressed-air network upon opening of the main valve and the pressure in the pressure chamber does not drop to ambient pressure when closing the main valve. 2. The valve unit according to claim 1 , wherein a pressure sensor is arranged in the valve chamber. 3. The valve unit according to claim 1 , wherein the aeration valve and/or the ventilation valve is a solenoid valve. 4. The valve unit according to claim 1 , wherein the valve unit has an electronic interface for reading out data including a position of the piston and/or a pressure in the pressure chamber. 5. The valve unit according to claim 1 , wherein the valve unit includes a chamber separate from the valve chamber for accommodating the electronic components. 6. A valve system comprising at least one valve unit according to claim 1 , the valve system comprising a compressed-air supply which is connected to the pressure fluid port of the at least one valve unit, and a compressed-air control unit which is set up so as to regulate a system pressure provided by the compressed-air supply on the basis of a position of the piston and/or a pressure prevailing in the pressure chamber. 7. The valve system according to claim 6 , comprising a valve unit, wherein the compressed-air control unit is electronically connected to an interface of the valve unit for reading out data. 8. A method of operating a valve unit according to claim 1 , comprising: controlling, via the control unit, the aeration valve and/or the ventilation valve to shift the piston from an open position, in which the main valve is open, to a closed position, in which the main valve is closed, or vice versa, detecting the position of the piston by the position sensor, and closing the aeration valve or the ventilation valve as soon as the piston is in the open position or in the closed position such that the pressure in the pressure chamber does not rise up to the system pressure of a connected compressed-air network upon opening of the main valve and the pressure in the pressure chamber does not drop to ambient pressure when closing the main valve. 9. The method according to claim 8 , wherein the aeration valve or the ventilation valve is temporarily reopened if the position of the piston differs from an open position or a closed position, while the pressure in the pressure chamber remains approximately constant. 10. A pneumatically controlled valve unit having a main valve for controlling a fluid flow of a fluid to be dosed, comprising: a piston shiftably mounted in a valve chamber, operating against a return means, and connected to a valve closing body of the main valve to open and close the main valve, wherein the piston delimits a pressure chamber within the valve chamber such that the piston can be shifted against the return means by pressurizing the pressure chamber, wherein a position sensor is provided which is set up to detect the position of the piston in the valve chamber, wherein one respective pressure line leads from the pressure chamber to a pressure fluid port and a ventilation port, and an aeration valve is arranged in one pressure line and a ventilation valve is arranged in the further pressure line, wherein a control unit is provided which is set up to switch the aeration valve and the ventilation valve on the basis of the position of the piston detected by the position sensor to regulate a pressure in the pressure chamber for shifting the piston, and wherein the control unit is set up to switch the aeration valve or the ventilation valve already when the piston is not yet in a final position, but the measured pressure is sufficient to shift the piston further up to the final position against the force of the return means.