Powder conveyor and associated operating method

The invention claimed is: 1. A powder conveyor for coating powder, wherein the powder conveyor comprises the following: a pneumatically actuatable dense phase powder pump comprising at least one conveyor chamber having a powder inlet valve and a powder outlet valve, wherein the powder inlet valve and powder outlet valve are respectively designed as pneumatically actuatable pinch valves which close upon application of an actuation pressure; a pressure regulator for adjusting and maintaining a predefined or definable set pressure on the at least one conveyor chamber of the dense phase powder pump and/or for adjusting and maintaining a predefined or definable actuation pressure on the powder inlet valve and/or powder outlet valve; a gas flow detection device for detecting or determining the volume of gas fed to or discharged from the at least one conveyor chamber per unit of time when adjusting and maintaining the predefined or definable set pressure and/or for detecting or determining the volume of gas fed to the powder inlet valve and/or powder outlet valve per unit of time when adjusting and maintaining a predefined or definable actuation pressure; and an evaluation device designed to compare at least one detected or determined volumetric gas flow vary flow value to a corresponding set value, wherein the evaluation device is further designed to automatically issue an error and/or warning signal upon the at least one detected volumetric gas flow value deviating from the respective set value, preferably as a function of the magnitude of the deviation; wherein the pressure regulator comprises an inlet and at least one outlet, wherein the inlet of the pressure regulator is fluidly connected or connectable to a compressed air source providing a predefined or definable constant supply pressure, and wherein the pressure regulator comprises at least one throttle device for localized adjusting of a discharge cross section so as to provide the set pressure to be applied on the at least one conveyor chamber and/or the actuation pressure to be applied on the powder inlet valve or powder outlet valve at the at least one outlet of the pressure regulator; and wherein the gas flow detection device is designed to detect the value of the volume of gas fed to or discharged from the at least one conveyor chamber per unit of time when adjusting and maintaining the set pressure and/or the value of the volume of gas supplied to the powder inlet valve or powder outlet valve per unit of time when adjusting and maintaining the actuation pressure based on a flow cross section of the at least one throttle device set by the pressure regulator. 2. The powder conveyor according to claim 1 , wherein a sensor device is provided to detect at least one set pressure value at the powder inlet valve upon the actuation of said powder inlet valve and/or to detect at least one set pressure value at the powder outlet valve upon the actuation of said powder outlet valve and/or to detect at least one set negative pressure value in the at least one conveyor chamber during a powder suction phase of the dense phase powder pump and/or to detect at least one set negative pressure value in the a least one conveyor chamber during a powder discharge phase or flushing mode of the dense phase powder pump. 3. The powder conveyor according to claim 2 , wherein the pressure regulator is designed to adjust the flow cross section of the at least one throttle device as a function of at least one pressure valve detected by the sensor device such that the at least one pressure valve detected by the sensor device, corresponds to the at least one set valve to be applied to the conveyor chamber or the actuation pressure to the applied to the powder inlet/outlet valve. 4. The powder conveyor according to claim 1 , wherein the pressure regulator is designed to provide a negative pressure during a powder suction phase of the dense phase powder pump and/or provide an excess pressure during a powder discharge phase of the dense phase powder pump and/or to provide an actuation pressure for the actuation of the powder inlet valve and/or provide an actuation pressure for the actuation of the powder outlet valve. 5. The powder conveyor according to claim 1 , wherein the gas flow detection device is designed to at least intermittently detect one of the following chronological sequences during the operation of the dense phase powder pump and compare same to a correspondingly predefined chronological sequence: the chronological sequence of an amount of actuating compressed gas fed to the powder inlet valve per unit of time upon the powder inlet valve being actuated; the chronological sequence of an amount of actuating compressed gas fed to the powder outlet valve per unit of time upon the powder outlet valve being actuated; the chronological sequence of an amount of gas discharged from the at least one conveyor chamber per unit of time during powder suction phases of the dense phase powder pump and the chronological sequence of an amount of compressed conveying gas fed to the at least one conveyor chamber per unit of time during powder discharge phases of the dense phase powder pump. 6. The powder conveyor according to claim 5 , wherein the evaluation device is designed to automatically issue an error and/or warning signal upon detecting that at least one chronological process deviates from the respectively predefined chronological process, preferably as a function of the magnitude and/or chronological gradient to the difference between the predefined chronological process and the detected chronological process. 7. The powder conveyor according to claim 1 , wherein the powder inlet valve and/or the powder outlet valve is/are designed as a pinch valve, and of the type in which a flexible tube separates a valve channel in the tube interior from a pressure chamber allocated to the pinch valve on the tube exterior, wherein the actuation pressure of the actuating compressed gas introduced into the pressure chamber can squeeze the tube and thereby close the valve channel. 8. The powder conveyor according to claim 1 , wherein the evaluation device is designed to automatically deduce a leak in the powder inlet valve or powder outlet valve or a malfunction of the powder inlet valve or powder outlet valve and issue a corresponding error and/or warning signal when it is detected by the gas flow detection device that the amount of actuating compressed gas supplied per unit of time to the powder inlet/outlet valve as required for applying the predefined or definable actuation pressure on the powder inlet/outlet valve is higher than a predefined or definable gas flow volume plus any applicable tolerance. 9. The powder conveyor according to claim 1 , wherein the conveyor chamber has a chamber wall formed by a filter along at least a part of the length between a powder inlet and a powder outlet of the conveyor chamber, wherein the filter surrounds the conveyor chamber and separates the conveyor chamber from a partition wall surrounding the filter and formed between the filter and a conveyor chamber housing, wherein the filter is permeable to gas but not to coating powder. 10. The powder conveyor according to claim 2 , wherein the sensor device comprises at least one pressure sensor allocated to the conveyor chamber to detect an actually set pressure value of an excess pressure applied on the conveyor chamber in the intermediate chamber formed between the filter and the conveyor chamber housing during a powder discharge phase of the dense phase powder pump or a flushing operating mode of the dense phase powder pump. 11. The powder conveyor according to claim 2 , wherein the conveyor chamber has