Fluid delivery system with pump servicing features

The invention claimed is: 1. A printing fluid delivery system comprising: a fluid pump having an inlet and an outlet; a valve connected to the outlet of the fluid pump; and a controller to initiate a service procedure based on a service condition of the fluid pump, the service procedure including closing the valve while the fluid pump is driven to increase the pressure at the outlet of the fluid pump and opening the valve based on a predefined relief condition to relieve the pressure at the outlet of the fluid pump. 2. The printing fluid delivery system of claim 1 , wherein the predefined relief condition includes an elapsed time of driving the fluid pump or includes meeting a pressure threshold at the outlet of the fluid pump. 3. The printing fluid delivery system of claim 1 , further comprising a bypass conduit, the bypass conduit selectively connecting the outlet and the inlet of the fluid pump, wherein the controller operates the fluid delivery system such that the printing fluid flows from the outlet to the inlet of the fluid pump through the bypass conduit when the pressure at the outlet of the fluid pump is greater than a pre-defined pressure threshold. 4. The printing fluid delivery system of claim 1 , further comprising a pressure relief valve associated with a pre-defined pressure threshold and connecting the outlet and the inlet of the fluid pump such that the printing fluid flows from the outlet to the inlet of the fluid pump through the pressure relief valve when the valve is closed and the pressure difference between the outlet and the inlet is greater than the pre-defined pressure threshold. 5. The printing fluid delivery system of claim 1 , wherein the fluid pump is a reciprocating positive displacement pump. 6. The printing fluid delivery system of claim 1 , further comprising a sensor to monitor an operating condition of the fluid pump, wherein the controller closes the valve when the operating condition deviates from a target condition by a pre-defined deviation. 7. The printing fluid delivery system of claim 6 , wherein the operating condition is a flow rate induced by the fluid pump, the pressure generated by the fluid pump at the outlet or the inlet, or the power consumption of the fluid pump. 8. The printing fluid delivery system of claim 1 , wherein the controller closes the valve and drives the fluid pump to increase the pressure at the outlet of the fluid pump based on an elapsed time since the last service condition or based on a change of a fluid supply in the printing fluid delivery system. 9. The printing fluid delivery system of claim 8 , comprising a second fluid pump having a second inlet and a second outlet, and further comprising a second valve connected to the second outlet of the second fluid pump, wherein the controller closes the second valve based on an operating condition of the second fluid pump while the second fluid pump is driven to increase the pressure at the second outlet of the second pump, and opens the second valve based on a predefined condition to relieve the pressure at the outlet of the fluid pump, and records the operating condition. 10. The printing fluid delivery system of claim 1 , wherein the controller is to drive the fluid pump when the valve is closed to increase the pressure to a level sufficient to dislodge a dry particle impeding operation of the pump. 11. A printer comprising a printing fluid delivery system to move a printing fluid between a printing fluid supply and a printhead, the printing fluid delivery system comprising: a fluid pump having an inlet and an outlet; a valve connected to the outlet of the fluid pump; and a pressure relief valve associated with a pre-defined pressure threshold and connecting the outlet and the inlet of the fluid pump such that the printing fluid flows from the outlet to the inlet of the fluid pump through the pressure relief valve when the pressure difference between the outlet and the inlet is greater than the pre-defined pressure threshold, wherein the printer services the fluid pump based on a first service condition of the pump by closing the valve and driving the fluid pump to direct the printing fluid from the outlet of the fluid pump to the inlet of the fluid pump via the pressure relief valve. 12. The printer of claim 11 , comprising a second fluid pump having a second inlet and a second outlet; a second valve connected to the second outlet of the second fluid pump; wherein the printer services the fluid pump based on a second service condition, the second service condition being different from the first service condition, by closing the second valve and driving the second fluid pump. 13. The printer of claim 11 , further comprising an intermediate tank coupled to the printing fluid delivery system between the printing fluid supply and the printhead, wherein the controller controls the printing fluid delivery system to guide the printing fluid into the intermediate tank when the valve is opened. 14. A method to automatically service a fluid pump, the method comprising: receiving a maintenance trigger based on a service condition of the pump; reconfiguring a printing fluid delivery system associated with the fluid pump to increase fluid resistance at an output side of the fluid pump; driving the fluid pump to increase a pressure at the outlet of the fluid pump, the pressure at the output of the fluid pump increased to a level sufficient to dislodge a dry particle impeding operation of the fluid pump; and reestablishing normal operation of the pump. 15. The method according to claim 14 , wherein the fluid pump is connected to a pressure relief valve, the pressure relief valve connecting the outlet and an inlet of the fluid pump such that a printing fluid may flow from the outlet to the inlet of the fluid pump when the pressure at the outlet is greater than a pressure threshold, and the method comprises driving the fluid pump to increase the pressure at the outlet of the fluid pump to the pressure threshold. 16. The method according to claim 14 , wherein the method further comprises stopping the fluid pump and relieving the increased pressure at the output of the pump before reestablishing normal operation of the pump.