Valve, in particular pilot-operated proportional directional poppet valve

The invention claimed is: 1. A valve, comprising: a valve housing having a fluid inlet and a fluid outlet; a main piston movable in said valve housing to adjust fluid flow between said fluid inlet and said fluid outlet; a pilot valve chamber on a rear face of said main piston; a pilot valve closing member being coupled to and actuated by an actuator and being movable in said valve housing to adjust fluid flow between said pilot valve chamber and said fluid outlet; a supply aperture located between said fluid inlet and said pilot valve chamber; and a maximum volumetric flow controller in providing fluid communication in an outflow direction between said pilot valve chamber and said fluid outlet, said maximum volumetric flow controller regulating a maximum flow from said pilot valve chamber to said fluid outlet, parts of said maximum volumetric flow controller being movable relative to said main piston and said pilot valve closing member. 2. A valve according to claim 1 wherein said supply aperture comprises an opening cross section that is reducible by a control element. 3. A valve according to claim 1 wherein an aperture slot is between said fluid inlet and said supply aperture. 4. A valve according to claim 3 wherein said aperture slot comprises an annular gap between said valve housing and said main piston. 5. A valve according to claim 1 wherein a spring is coupled to and biases said main piston into a closing position via said pilot valve closing member. 6. A valve according to claim 1 wherein said pilot valve closing member is drawn away from a pilot valve seat by said actuator. 7. A valve, comprising: a valve housing having a fluid inlet and a fluid outlet; a main piston movable in said valve housing to adjust fluid flow between said fluid inlet and said fluid outlet; a pilot valve chamber on a rear face of said main piston; a pilot valve closing member being coupled to and actuated by an actuator and being movable in said valve housing to adjust fluid flow between said pilot valve chamber and said fluid outlet; a supply aperture located between said fluid inlet and said pilot valve chamber; and a maximum volumetric flow controller in said main piston in an outflow direction between said pilot valve chamber and said fluid outlet, said maximum volumetric flow controller including a control piston having a front face exposed to pressure of fluid flowing out of said pilot valve chamber and a rear face coupled to a spring. 8. A valve according to claim 7 wherein a fluid channel is in said control piston; and said maximum volumetric flow controller comprises control edges formed in said control piston and in said main piston by bores therein, a size of an opening cross section limited by said control edges being dependent on a position of said control piston. 9. A valve according to claim 8 wherein said fluid channel comprises a lateral opening on said control piston. 10. A valve according to claim 7 wherein said control piston is in an axial bore in said main piston. 11. A valve according to claim 10 wherein an end cap holds said control piston in said axial bore. 12. A valve, comprising: a valve housing having a fluid inlet and a fluid outlet; a main piston movable in said valve housing to adjust fluid flow between said fluid inlet and said fluid outlet; a pilot valve chamber on a rear face of said main piston; a pilot valve closing member being coupled to and actuated by an actuator and being movable in said valve housing to adjust fluid flow between said pilot valve chamber and said fluid outlet; a supply aperture located between said fluid inlet and said pilot valve chamber and including an opening cross section reducible by a control element, said control element being assigned to said pilot valve closing member; and a maximum volumetric flow controller in said main piston in an outflow direction between said pilot valve chamber and said fluid outlet. 13. A valve according to claim 12 wherein said control element comprises a radial projection on said pilot valve closing member. 14. A valve according to claim 13 wherein said radial projection comprises a collar having at least one pressure-relief bore. 15. A valve, comprising: a valve housing having a fluid inlet and a fluid outlet; a main piston movable in said valve housing to adjust fluid flow between said fluid inlet and said fluid outlet; a pilot valve chamber on a rear face of said main piston; a pilot valve closing member being coupled to and actuated by an actuator and being movable in said valve housing to adjust fluid flow between said pilot valve chamber and said fluid outlet; a supply aperture located between said fluid inlet and said pilot valve chamber, said supply aperture comprising a plurality of aperture bores, an opening cross section of at least one of said aperture bores being reducible by a control element; and a maximum volumetric flow controller in said main piston in an outflow direction between said pilot valve chamber and said fluid outlet. 16. A valve according to claim 15 wherein each of said aperture bores have a same diameter. 17. A valve according to claim 15 wherein said aperture bores are in said main piston and are offset relative to one another at least one of axially or over a circumference of said main piston. 18. A valve according to claim 15 wherein said control element is on said pilot valve closing member. 19. A valve according to claim 15 wherein said control element comprises a radial projection on said pilot valve closing member. 20. A valve according to claim 19 wherein said radial projection comprises a collar having at least one pressure-relief bore. 21. A valve, comprising: a valve housing having a fluid inlet and a fluid outlet; a main piston movable in said valve housing to adjust fluid flow between said fluid inlet and said fluid outlet; a pilot valve chamber on a rear face of said main piston; a pilot valve closing member being coupled to and actuated by an actuator and being movable in said valve housing to adjust fluid flow between said pilot valve chamber and said fluid outlet, said pilot valve closing member being engagable with and relatively movable relative to a pilot valve seat in said main piston; a supply aperture located between said fluid inlet and said pilot valve chamber; and a maximum volumetric flow controller providing fluid communication in an outflow direction between said pilot valve chamber and said fluid outlet, said maximum volumetric flow controller regulating a maximum flow from said pilot valve chamber to said fluid outlet, said maximum volumetric flow controller being downstream of, separate from and spaced from said pilot valve seat and said pilot valve closing member.