Pumping installation comprising a pneumatic pump and a valve for regulating supply of the pump with compressed gas

The invention claimed is: 1. Pumping installation comprising: a pneumatic pump pumping a fluid; a supply system supplying said pneumatic pump with compressed gas, comprising: a source of compressed gas; and a fluidic connection that fluidly connects said source to said pneumatic pump; and a control system controlling the supply of compressed gas to said pneumatic pump, comprising: a valve mounted on said fluidic connection and switchable between a blocking state, in which the valve prevents the flow of compressed gas between said source and said pneumatic pump, and a passing state, in which the valve allows the flow of compressed gas between said source and said pneumatic pump, comprising: a body internally defining a passage for the compressed gas; a flap mounted to move relative to said body between a closed position, in which the flap closes the passage, and an open position, in which the flap releases the passage; and a member for exerting a restoring force on said flap to close said flap when said flap is open; a metal counterplate that is movable together with said flap; a sensor for monitoring a parameter; and an electromagnetic lock acting on said valve to automatically switch said valve from its passing state to its blocking state as a function of a signal produced by said sensor and representative of the parameter being monitored, by exerting on said counterplate a biasing force, the biasing force being greater than the restoring force when said flap is open, thereby retaining said flap in its open position, and being less than the restoring force when said flap is closed. 2. Pumping installation according to claim 1 , wherein the parameter monitored by said sensor is a state of said pneumatic pump. 3. Pumping installation according to claim 2 , wherein said sensor generates a predetermined electrical signal when it detects at least one predetermined state of said pneumatic pump, and said electromagnetic lock is electrically connected to said sensor to receive this electrical signal when it is generated, said electromagnetic lock being further designed to switch said valve from its passing state to its blocking state when said electromagnetic lock receives this electrical signal. 4. Pumping installation according to claim 3 , wherein the predetermined state comprises a runaway state of said pneumatic pump. 5. Pumping installation according to claim 1 , wherein said electromagnetic lock has an active state in which it exerts the biasing force, which retains the flap in its open position, and an inactive state in which the open flap is not retained in its open position by said electromagnetic lock. 6. Pumping installation according to claim 5 , wherein said electromagnetic lock is in its active state when not supplied with electric current, and in its inactive state when supplied with electric current. 7. Pumping installation according to claim 1 , wherein said flap is mounted to move in translation relative to said body of said valve in a longitudinal direction between said flap's open and closed positions. 8. Pumping installation according to claim 1 , wherein said control system further comprises a manually operated button, for switching said valve from its blocking state in its passing state. 9. Pumping installation according to claim 1 , further comprising a confinement enclosure in which said pneumatic pump is installed, said valve being arranged outside the confinement enclosure. 10. Pumping installation according to claim 1 , further comprising a reservoir, containing the fluid, said pneumatic pump being able to pump the fluid contained in the reservoir. 11. Installation for spraying a coating product onto a surface to be coated, comprising: an applicator for spraying the coating product onto the surface to be coated; and a pumping installation according to claim 1 for pumping the coating product and supplying said applicator with the coating product.