Particle discharge device, filter assembly, and method

What is claimed is: 1. A filter assembly with a particle discharge device comprising: a filter housing comprising a centrifugal separator and a particle discharge socket; the particle discharge device comprising: a tubular housing having one or more particle discharge flaps, all formed as a single one-piece molded plastic component of a plastic elastically deformable elastomer material; the tubular housing comprising a valve seat; a tubular base section of the tubular housing, projecting axially outwardly away from the one or more particle discharge flaps and having an open end configured to receive the particle discharge socket of the filter assembly; wherein the valve seat surrounds at least partially a symmetry axis of the tubular housing; wherein the one or more particle discharge flaps elastically bend or curve in an arc shape to move between the closed state and the open state; wherein the open state is an initial state of the one or more particle discharge flaps, such that the one or more particle discharge flaps remain in the open state until the filter assembly introduces a vacuum into the particle discharge device, the vacuum applying a first biasing force acting directly onto the one or more particle discharge flaps, urging the one or more particle discharge flaps to bend or curve into the closed state, closing against the valve seat; wherein the elastically deformable elastomer material is a reversible deformability, such that the one or more particle discharge flaps return to the open state when the first biasing force is removed, wherein the plastic elastically deformable elastomer material is selected from the set consisting of: ethylene propylene diene rubber (EPDM), acrylonitrile butadiene rubber (NBR), a thermoplastic polyurethane (TPU). 2. The particle discharge device according to claim 1 , wherein a second biasing force is a weight force generated by particles collecting on the one or more particle discharge flaps, the weight force urging the one or more particle discharge flaps to move towards the open state. 3. The particle discharge device according to claim 1 , further comprising a center stay connected to the housing, wherein the one or more particle discharge flaps include a first particle discharge flap and a second particle discharge flap, wherein the first particle discharge flap and the second particle discharge flap are connected to the center stay, wherein the first particle discharge flap, the second particle discharge flap, and the center stay form together with the housing a one-piece component. 4. The particle discharge device according to claim 1 , further comprising a bottom closing at least partially an end face of the housing, wherein precisely one particle discharge flap is provided, and wherein said one particle discharge flap and the bottom are embodied together as one piece. 5. The particle discharge device according to claim 1 , wherein the valve seat completely surrounds the symmetry axis. 6. A method for producing a particle discharge device according to claim 1 , the method comprising the steps: a) producing the housing; and b) producing the one or more particle discharge flaps as one piece together with the housing. 7. The method according to claim 6 , further comprising separating the one or more particle discharge flaps from the valve seat of the housing by a separating manufacturing method during step b). 8. The method according to claim 6 , further comprising separating the one or more particle discharge flaps from the valve seat of the housing by a separating manufacturing method subsequent to step b). 9. The particle discharge device according to claim 1 , wherein the tubular base section includes a circumferentially extending annular groove formed into a radially interior side of the tubular base section, the circumferentially extending annular groove configured of captively engage the particle discharge socket.