Dense phase powder pump

The invention claimed is: 1 . A dense phase powder pump for conveying coating powder from a first powder reservoir to a downstream second powder reservoir or a downstream powder spray coating gun, wherein the dense phase powder pump comprises a powder conveying chamber which is fluidly connected or connectable to the first powder reservoir via a powder inlet and to the second powder reservoir or the downstream powder spray coating gun via a powder outlet, wherein at least one powder inlet valve is provided at the powder inlet and at least one powder outlet valve is provided at the powder outlet, wherein the at least one powder inlet valve and the at least one powder outlet valve are each configured as a pinch valve comprising a flexible elastic hose as a valve channel that can be squeezed by actuating compressed air in a pressure chamber surrounding the respective flexible elastic hose in order to close the respective valve, and are each configured to return to an initial state in the absence of a differential pressure to an ambient pressure in the pressure chamber surrounding the respective hose, said initial state of the flexible elastic hose defining the corresponding open state of the respective valve, the dense phase powder pump characterized in that: the at least one powder inlet valve and the at least one powder outlet valve each exhibit a flow cross section in the respective open state having a two-dimensional area less than a two-dimensional area flow of a flow cross section of the powder conveying chamber, where a flow cross section of any part is defined as a cross section taken through a plane orthogonal to a flow direction through that part; the at least one powder inlet valve exhibits a flow cross section in the respective open state having a two-dimensional area which corresponds to at least 35% of the two-dimensional area of the flow cross section of the powder conveying chamber; and the dense phase powder pump is configured as a single-chamber dense phase powder pump and comprises only one single powder conveying chamber for conveying coating powder. 2 . The dense phase powder pump according to claim 1 , wherein the at least one powder inlet valve and the at least one powder outlet valve exhibit an identical effective flow cross section in the respective open state. 3 . The dense phase powder pump according to claim 1 , wherein the flow cross section of the at least one powder inlet valve in the open state which is larger than the flow cross section of the at least one powder outlet valve in its open state. 4 . The dense phase powder pump according to claim 3 , wherein the flow cross section of the at least one open powder inlet valve is configured at least 50% larger than the flow cross section of the at least one open powder outlet valve. 5 . The dense phase powder pump according to claim 3 , wherein the flow cross section of the at least one open powder inlet valve is configured at least 100% larger than the flow cross section of the at least one open powder outlet valve. 6 . The dense phase powder pump according to claim 3 , wherein the flow cross section of the at least one open powder inlet valve is configured at least 250% larger than the flow cross section of the at least one open powder outlet valve. 7 . The dense phase powder pump according to claim 1 , wherein the single powder conveying chamber comprises the powder inlet at a first end region and the powder outlet at an oppositely disposed second end region, wherein the at least one powder inlet valve and the at least one powder outlet valve are arranged at respective opposite end regions of the single powder conveying chamber. 8 . The dense phase powder pump according claim 1 , wherein the single powder conveying chamber comprises a powder channel at one end region which serves both as a powder inlet as well as a powder outlet, wherein the at least one powder inlet valve and the at least one powder outlet valve are each provided in said powder channel. 9 . The dense phase powder pump according to claim 8 , wherein a manifold, is a Y-fitting, and is further provided to fluidly connect the powder channel of the single powder conveying chamber to the at least one powder inlet valve on the one hand and to the at least one powder outlet valve on the other hand. 10 . The dense phase powder pump according to claim 1 , wherein a control device is further provided for controlling the at least one powder inlet valve and/or the at least one powder outlet valve as well as for alternatingly generating a positive pressure and a negative pressure in the powder conveying chamber. 11 . The dense phase powder pump according to claim 8 , wherein the at least one powder inlet valve and the at least one powder outlet valve are separately controllable. 12 . The dense phase powder pump according claim 1 , wherein a control device is provided which is configured to alternatingly connect at least one air exchange opening of the powder conveying chamber to a vacuum line or vacuum source for drawing coating powder into the powder conveying chamber through the at least one open powder inlet valve while the at least one powder outlet valve is closed, or to a compressed air line or a compressed air source for pneumatically expelling a portion of powder from within the powder conveying chamber through the at least one open powder outlet valve while the at least one powder inlet valve is closed. 13 . The dense phase powder pump according to claim 1 , wherein at least one additional compressed air inlet device further leads to one point in the powder path for supplying additional compressed air as additional conveying compressed air when needed. 14 . The dense phase powder pump according to claim 13 , wherein the additional compressed air inlet device is designed to pulsatively introduce additional compressed air into the powder path. 15 . The dense phase powder pump according to claim 14 , wherein the point in the powder path is between the powder outlet valve and the powder outlet of the dense phase powder pump. 16 . The dense phase powder pump according to claim 1 , wherein the at least one powder outlet valve exhibits a flow cross section in the respective open state which corresponds to at least 35% of the flow cross section of the powder conveying chamber.