Pressure cleaning device, method for operating a pressure cleaning device and method for detecting a hose attachment

The invention claimed is: 1. A pressure cleaning device, which is operable in at least two different operating modes, the pressure cleaning device comprising: a pressure generating unit configured to pressurize a fluid and deliver the pressurized fluid via a hose attachment; at least one of (i) a pressure sensor configured to determine a current operating pressure of the pressure generating unit and (ii) a flow rate sensor configured to determine a current flow rate of the pressure generating unit; and a control device configured to control the pressure generating unit based on which operating mode of the at least two operating modes the pressure cleaning device is set and depending on at least one of the current operating pressure and the current flow rate, wherein the control device is further configured to at least one of (i) set a maximum allowed operating pressure higher than the current operating pressure by one of a predefined percentage and a predefined absolute pressure and (ii) set a minimum allowed operating pressure lower than the current operating pressure by one of a predefined percentage and a predefined absolute pressure. 2. The pressure cleaning device as claimed in claim 1 , wherein the control device is configured to deactivate the pressure generating unit in response to a predefined dry running operating pressure, which signals an empty storage tank, occurring. 3. The pressure cleaning device as claimed in claim 1 , wherein the control device is configured to identify at least one of a currently used hose attachment and a currently used fluid jet type depending on at least one of (i) the current operating pressure, (ii) an operating pressure curve, (iii) the current flow rate, and (iv) a flow rate curve. 4. The pressure cleaning device as claimed in claim 3 , wherein the control device is configured to one of store and output at least one item of information about the at least one of the currently used hose attachment and currently the used fluid jet type. 5. The pressure cleaning device as claimed in claim 4 , wherein the control device is configured to output, at one of a mobile terminal and a human-machine interface, the at least one item of information about the at least one of the currently used hose attachment and currently the used fluid jet type. 6. The pressure cleaning device as claimed in claim 1 , wherein the control device is configured to one of infer a condition of the pressure cleaning device and monitor the condition of the pressure cleaning device depending on at least one of (i) the current operating pressure, (ii) an operating pressure curve, (iii) the current flow rate, and (iv) a flow rate curve. 7. The pressure cleaning device as claimed in claim 1 , wherein the pressure generating unit has a pump and the pressure sensor is arranged at a pump outlet of the pump. 8. The pressure cleaning device as claimed in claim 1 further comprising: a rechargeable battery pack configured to supply power to the pressure generating unit, the pressure sensor, and the control device. 9. The pressure cleaning device as claimed in claim 1 , wherein the control device is configured to switch off the pressure cleaning device after a predefined period (i) without actuation of the hose attachment and (ii) without the current operating pressure dropping below a cut-in pressure. 10. The pressure cleaning device as claimed in claim 1 , wherein the hose attachment is a hand gun or a cleaning nozzle. 11. The pressure cleaning device as claimed in claim 1 , wherein the pressure sensor is an electric pressure sensor. 12. A method for operating a pressure cleaning device, which is operable in at least two different operating modes, the method comprising: pressurizing a fluid with a pressure generating unit and delivering the pressurized fluid via a hose attachment; determining at least one of (i) a current operating pressure with a pressure sensor and (ii) a current flow rate with a flow rate sensor; controlling the pressure cleaning device with a control device based on which operating mode of the at least two operating modes the pressure cleaning device is set and depending on at least one of the current operating pressure and the current flow rate; and at least one of (i) setting with the control device a maximum allowed operating pressure higher than the current operating pressure by one of a predefined percentage and a predefined absolute pressure and (ii) setting with the control device a minimum allowed operating pressure lower than the current operating pressure by one of a predefined percentage and a predefined absolute pressure. 13. A method for identifying at least one of a hose attachment and a fluid jet type of the hose attachment of a pressure cleaning device, which is operable in at least two different operating modes, the method comprising: pressurizing a fluid with a pressure generating unit and delivering the pressurized fluid via the hose attachment; determining at least one of (i) a current operating pressure with a pressure sensor and (ii) a current flow rate with a flow rate sensor; controlling the pressure cleaning device with a control device based on which operating mode of the at least two operating modes the pressure cleaning device is set and depending on at least one of the current operating pressure and the current flow rate; determining, with the control device, at least one of an operating pressure curve and a flow rate curve based on at least one of the current operating pressure and the current flow rate; identifying, with the control device, the at least one of the hose attachment and the fluid jet type of the hose attachment by correlating the at least one of the operating pressure curve and the flow rate curve with at least one of stored operating pressure curves and stored flow rate curves; setting, with the control device, an operating mode of the pressure generating unit based on the identified at least one of the hose attachment and the fluid jet type of the hose attachment; and at least one of (i) setting with the control device a maximum allowed operating pressure higher than the current operating pressure by one of a predefined percentage and a predefined absolute pressure and (ii) setting with the control device a minimum allowed operating pressure lower than the current operating pressure by one of a predefined percentage and a predefined absolute pressure.