Powdering system

The invention claimed is: 1. A powdering system, having a working configuration and a cleaning configuration, comprising: a powder reservoir, comprising a supply chamber receiving powder; at least one sprayer, comprising: a powder applicator, and a supply line, connecting said powder applicator to a respective supply outlet of said supply chamber, such that, in the working configuration, said powder applicator is supplied with powder contained in said supply chamber by means of the supply line; and at least one cleaning inlet, fluidly connected to said supply chamber such that, in the cleaning configuration, a cleaning air supply source is connected to the at least one cleaning inlet so as to circulate cleaning air in said supply chamber; wherein said powder reservoir comprises: a discharge opening, arranged through a wall of said supply chamber and opening into said supply chamber; and a movable plug, which is movable between: a closing position where the plug is positioned in the plane of the wall of said supply chamber and closes said discharge opening, the closing position being adopted in the working configuration, and an open position where the plug is positioned inside the supply chamber and opens said discharge opening, the open position being adopted in the cleaning configuration such that the circulation of cleaning air in said supply chamber through said at least one cleaning inlet causes a discharge of residual powder contained in said supply chamber through said discharge opening, to an outside of said supply chamber. 2. The powdering system according to claim 1 , wherein: said discharge opening defines a cleaning air passage section; each of said at least one cleaning inlet defines a cleaning air passage section; and an area of the cleaning air passage section of said discharge opening is greater than a sum of areas of each said cleaning air passage section of each of said at least one cleaning inlet. 3. The powdering system according to claim 2 , wherein the area of said cleaning air passage section of said discharge opening is at least two times greater than the sum of the areas of each said cleaning air passage section of said at least one cleaning inlet. 4. The powdering system according to claim 1 , wherein said at least one cleaning inlet comprises at least one stationary cleaning nozzle, arranged at said discharge opening while being stationary relative to the wall, said at least one stationary cleaning nozzle being designed to blow cleaning air coming from the supply source from the outside of said supply chamber, toward the inside of said supply chamber, through said discharge opening. 5. The powdering system according to claim 1 , wherein said at least one cleaning inlet comprises at least one movable cleaning nozzle, attached to said movable plug so as to be securely movable with said movable plug, said at least one movable cleaning nozzle being designed to blow cleaning air toward the inside of said supply chamber, through said discharge opening. 6. The powdering system according to claim 5 , wherein: from the closing position to the open position, said movable plug is moved toward the inside of said supply chamber; and in the closing position, said movable plug is inserted between each said movable cleaning nozzle and the inside of said supply chamber. 7. The powdering system according to claim 5 , wherein, in the open position of said movable plug, each said movable cleaning nozzle is at least partially positioned inside said supply chamber. 8. The powdering system according to claim 1 , wherein the wall is a vertical wall of said powder reservoir. 9. The powdering system according to claim 1 , further comprising a suction system to which said discharge opening is fluidly connected, to thus discharge residual powder contained in said supply chamber toward the suction system, through said discharge opening, when, in the cleaning configuration, cleaning air is circulated in said supply chamber through said at least one cleaning inlet. 10. The powdering system according to claim 1 , wherein said powder reservoir comprises an automatic actuator, automatically positioning said movable plug in the closing position, when the powdering system is in the working configuration, and in the open position, when the powdering system is in the cleaning configuration. 11. The powdering system according to claim 1 , wherein said powder reservoir comprises: a fluidization plate, delimiting said supply chamber, the fluidization plate emitting, in the working configuration, fluidization air of the powder contained in said supply chamber; and at least one fluidized air outlet arranged through the wall, which is configured to discharge fluidization air in the working configuration, said at least one cleaning inlet equipping said at least one fluidized air outlet in order, in the cleaning configuration, to circulate cleaning air toward said supply chamber through said at least one fluidized air outlet. 12. The powdering system according to claim 11 , wherein said powder reservoir comprises: an upper wall, said supply chamber being delimited by the upper wall and by said fluidization plate; and at least one side wall, connecting said upper wall to said fluidization plate and bearing the respective supply outlet of said at least one sprayer, the respective supply outlet being arranged closer to said fluidization plate than the upper wall. 13. The powdering system according to claim 12 , wherein the respective supply outlet of said at last one sprayer is located at a distance smaller than 50 mm from said fluidization plate. 14. The powdering system according to claim 12 , wherein the respective supply outlet defines a respective outlet orifice passing through the side wall, the outlet orifice defining an orifice axis that is inclined relative to said fluidization plate, by an angle of between 30° and 60°. 15. The powdering system according to claim 12 , wherein: said at least one side wall comprises a first side wall and a second side wall that are opposite one another, delimiting said supply chamber between them; and for each of said sprayers, said supply line of the sprayer connects said powder applicator of the sprayer to a respective supply outlet of said supply chamber, a first portion of the supply outlets being provided through said first side wall, a second portion of the supply outlets being provided through said second side wall. 16. The powdering system according to claim 11 , wherein said powder reservoir comprises an emptying outlet for emptying powder contained in said supply chamber, the emptying outlet passing through said fluidization plate. 17. The powdering system according to claim 1 , wherein: said supply chamber comprises at least one inlet for allowing powder into said supply chamber; and said at least one cleaning inlet comprises a line cleaning inlet belonging to said supply line of said at least one sprayer, the line cleaning inlet being arranged between said powder applicator and the supply outlet, such that, in the cleaning configuration, for each sprayer, the cleaning air source can be connected to the line cleaning inlet to circulate cleaning air towards said powder applicator and towards said supply chamber, via the supply line. 18. The powdering system according to claim 17 , wherein each said line cleaning inlet comprises a filter by means of which the cleaning air is injected into the supply line, the filter having a pore size smaller than the particle size of the powder.