Powder discharge unit, device, and method for generatively manufacturing a three-dimensional object

The invention claimed is: 1. A powder discharge unit for equipping and/or upgrading an apparatus for generatively manufacturing a three-dimensional object by a selective layer-by-layer solidification of building material in powder form, wherein the apparatus includes a recoater movable across a build area for applying a layer of the building material to the build area and a solidification device for selectively solidifying the applied layer at points corresponding to a cross-section of the object to be manufactured and wherein the apparatus is configured and/or controlled to repeat the steps of applying and selectively solidifying until the object is completed, the powder discharge unit comprising: a powder container adapted to receive the building material in powder form; and a filling chamber adapted to fill the building material in powder form into the powder container, the powder container having an enclosed space within which powder is contained and further having an opening formed in a bottom portion of the powder container that communicates with the filling chamber and through which powder is conveyed into the powder container, the powder container and the filling chamber otherwise being isolated from each other except through the opening; a source of a fluidizing gas; a filling chamber gas inlet in a bottom of the filling chamber; a powder container gas inlet in a bottom of the powder container; and a supplier communicating the fluidizing gas to each of the gas inlets, wherein the building material in powder form contained in the powder container and the building material in powder form contained in the filling chamber are fluidised independently of one another. 2. The powder discharge unit according to claim 1 , further comprising a dosing device configured to dispense the building material in powder form contained in the powder container to a recoating unit of the recoater continuously or in portions. 3. The powder discharge unit according to claim 1 , further comprising a porous plate and/or a perforated plate in the bottom of the powder container and/or the filling chamber, the porous plate and/or the perforated plate permitting gas to be directed into the powder container and/or into the filling chamber independently of one another, wherein the bottom includes a heating element adapted to heat one or more of the porous plate, the perforated plate, and the gas. 4. The powder discharge unit according to claim 1 , wherein the powder container and the filling chamber are partial chambers of a container that includes a separating wall that separates the powder container and the filling chamber into sections. 5. The powder discharge unit according to claim 1 , wherein the powder container and the filling chamber are formed as two separate interconnected units. 6. The powder discharge unit according to claim 1 , wherein a connecting point between the filling chamber and the powder container is disposed at a bottom of the powder discharge unit. 7. The powder discharge unit according to claim 1 , wherein the powder container includes a radiation heater adapted to preheat the building material in powder form received therein, and wherein the radiation heater is disposed at an upper side of the powder container. 8. A powder discharge unit in an apparatus for generatively manufacturing a three-dimensional object by a selective layer-by-layer solidification of a powder building material, the apparatus including a recoater mounted for movement across a build area and applying consecutive layers of the building material to the build area, and a solidification device which selectively solidifys the applied layer at points corresponding to a respective cross-section of the object to be manufactured, with the steps of applying and selectively solidifying being repeated until the object is completed, the powder discharge unit comprising: a powder container which receives powder therein; and a filling chamber associated with the powder container into which powder is received through a filling chamber opening in an upper portion of the filling chamber, the powder container having an enclosed space within which powder is contained; the powder container further having a powder container opening formed in a bottom portion of the powder container communicating with the filling chamber and through which powder is conveyed into the powder container, the powder container and the filling chamber otherwise being isolated from each other except through the powder container opening; a source of a fluidizing gas; a filling chamber gas inlet in a bottom of the filling chamber; a powder container gas inlet in a bottom of the powder container; a supplier communicating fluidizing gas to each of the gas inlets. 9. The powder discharge unit of claim 8 , wherein the filling chamber and the powder container are fluidised independently of one another. 10. The powder discharge unit of claim 8 , wherein the powder discharge unit is mounted to travel with the recoater. 11. The powder discharge unit of claim 10 , wherein powder is conveyed from the filling chamber through the powder container opening through action of the fluidized gas. 12. The powder discharge unit of claim 11 , wherein powder is maintained in the powder container with a fluidized surface that is above a top of the powder container opening.