Active surge chamber

The invention claimed is: 1. An active surge chamber for use with a pump in a paint supply system, the active surge chamber comprising: a paint channel; a fluid chamber for connection to a pressurised fluid supply; a diaphragm; a spring; and a spool moveable in response to flexion of the diaphragm for effecting connection and disconnection of the pressurised fluid supply to the fluid chamber, and for effecting relief of pressure of fluid in the fluid chamber; wherein, the paint channel is sealingly separated from the fluid chamber by the diaphragm; the spring acts on the diaphragm and has a spring rate such that a force exerted on the diaphragm by the spring restricts movement of the diaphragm over a selected range of pump outlet pressures in order to attenuate the movement of the diaphragm due to a variation of paint pressure for a range of movement of the diaphragm in which the spool does not effect connection of the pressurised fluid supply to the fluid chamber, and does not effect relief of pressure of fluid in the fluid chamber; and a fluid reservoir wherein the fluid reservoir is connected to the fluid chamber in order to increase an overall volume of the fluid chamber. 2. The active surge chamber of claim 1 further comprising an exhaust passage for fluid from the fluid chamber wherein the spool is configured to move in such a way that fluid in the fluid chamber comes into fluid communication with the exhaust passage in order that fluid may be exhausted from the fluid chamber. 3. The active surge chamber of claim 2 further comprising at least one seal located on the spool wherein the seal or seals are configured to block fluid flow from the pressurised fluid supply to the fluid chamber and fluid flow from the fluid chamber to the exhaust passage when the spool is at a first range of positions. 4. The active surge chamber of claim 3 , wherein the seal or seals are also configured such that fluid flow from the pressurised fluid supply to the fluid chamber and fluid flow from the fluid chamber to the exhaust passage is enabled when the spool is at a second range of positions. 5. The active surge chamber of claim 3 further comprising a shaft wherein, the shaft is connected to the diaphragm at one end and configured such that flexion of the diaphragm causes movement of the shaft; wherein the movement of the shaft engages the spool and causes the spool to move. 6. The active surge chamber of claim 5 further comprising an annular space wherein, the spool surrounds the shaft; the annular space is situated between the spool and a bore; and the annular space is always in fluid communication with the pressurised fluid supply when the spool is at a particular position along the shaft, the annular space is in fluid communication with the pressurised fluid supply and the fluid chamber so that fluid may enter the fluid chamber from the pressurised fluid supply via the annular space. 7. The active surge chamber of claim 5 wherein the shaft is configured to move a first distance before engaging the spool such that the diaphragm may be flexed by a predetermined amount without causing movement to the spool. 8. The active surge chamber of claim 5 wherein the shaft further comprises an end flange located near the opposite end to that which is connected to the diaphragm and a pair of shaft seal flanges flanking a shaft seal located around the shaft at any position, such that flexion of the diaphragm causes contact of the end flange or one of the shaft seal flanges of the pair of shaft seal flanges with the spool in order to effect spool movement. 9. The active surge chamber of claim 1 , further comprising a piston coupled for movement with the diaphragm and having a seal surrounding the piston allowing slidable movement of the piston in a secondary chamber which is in fluid communication with the fluid chamber, wherein pressure of the fluid in the secondary chamber acts on the piston to provide an additional force on the diaphragm. 10. The active surge chamber of claim 9 , wherein the fluid in the secondary chamber applies a force upon a flat surface of the piston head and wherein an opposing surface of the piston head and piston rod does not interface with the pressurised fluid of the fluid chamber or the secondary chamber. 11. The active surge chamber of claim 9 further comprising a duct, wherein the fluid chamber is in fluid connection with the secondary chamber via the duct. 12. The active surge chamber of claim 9 , wherein the piston is coupled for movement with the diaphragm via connection with a shaft. 13. The active surge chamber of claim 9 , further comprising a gap below the piston configured to channel fluid flow to an exhaust passage if the gap comes into fluid connection with the fluid chamber. 14. An active surge chamber for use with a pump in a paint supply system, the active surge chamber comprising: a paint channel; a fluid chamber having an exhaust passage, an inlet for connection to a pressurised fluid supply and being sealingly separated from the paint channel by a diaphragm; a spring arranged to exert a force on the diaphragm; a spool responsive to flexing of the diaphragm to move between a charging position, in which the inlet of the active surge chamber is opened to admit pressurised fluid while the exhaust passage is closed, and an exhausting position in which the inlet is closed and the exhaust passage is opened, movement of the spool including an intermediate position in which both the inlet and the exhaust passage are closed, wherein, the force exerted by the spring on the diaphragm restricts movement of the diaphragm over a range of paint pressures in order to attenuate the movement of the spool in the intermediate position; and a fluid reservoir wherein the fluid reservoir is connected to the fluid chamber in order to increase an overall volume of the chamber. 15. The active surge chamber of claim 14 further comprising at least one seal located on the spool wherein; when the spool is at the charging position, one of the at least one seals prevents fluid from entering a pressure relief outlet; and when the spool is at the exhausting position, one of the at least one seals prevents fluid from the pressurised fluid supply from entering the fluid chamber. 16. The active surge chamber of claim 14 further comprising a shaft wherein, the shaft is connected to the diaphragm at one end and configured such that flexion of the diaphragm causes movement of the shaft; and movement of the shaft engages the spool and causes the spool to move. 17. The active surge chamber of claim 16 wherein the shaft is configured to move a first distance before engaging the spool such that the diaphragm may be flexed by a predetermined amount without causing movement to the spool. 18. The active surge chamber of claim 14 further comprising a piston coupled for movement with the diaphragm and having a piston seal surrounding the piston allowing slidable movement of the piston in a secondary chamber which is in fluid communication with the fluid chamber, wherein pressure of the fluid in the secondary chamber acts on the piston to provide an additional force on the diaphragm.