Method and device for making a three-dimensional object

The invention claimed is: 1. A method for making a three-dimensional object by layer-wise application and selective solidification of a pulverulent building material comprising the steps of: locally preheating the pulverulent building material to be applied in an applied powder layer by a preheating radiant heater which is associated with a preheating unit that receives the pulverulent building material from a separate supply, the preheating radiant heater being arranged stationary to the preheating unit and being a locally effective radiant heater for the preheating unit, the preheating radiant heater being arranged a vertical distance above and spaced from an upper surface of the pulverulent building material that is preheated within the preheating unit, the preheating radiant heater being located to extend its heating in an area confined to the surface of the pulverulent building material; applying the pulverulent building material as the applied layer onto a build area by an application device, wherein the application device comprises a recoating unit movable across the build area in an application direction; selectively solidifying the applied powder layer at positions corresponding to a cross-section of the object to be made; repeating the steps of applying and selectively solidifying until the object is completed; and providing, in addition to the locally effective radiant heater of the preheating unit, a non-locally effective radiant heat source that heats the pulverulent building material after being applied on the build area across the entire build area, wherein the application device is in communication with an outlet of the preheating unit in at least one operational position of the application device at an end of travel of the application device across the build area, the preheating unit being arranged stationary and separate from the application device, wherein a portion of the pulverulent building material is received by the preheating unit using a supply dosing unit that meters the pulverulent building material, the pulverulent building material is heated in the preheating unit by the preheating radiant heater and the heated pulverulent building material is transferred from the preheating unit to the recoating unit using a preheating unit dosing unit that meters the pulverulent building material into the recoating unit, and further comprising fluidizing the pulverulent building material in the preheating unit by passing heated protective gas through the pulverulent building material. 2. The method according to claim 1 , wherein the recoating unit is at least partially closed in the application direction and in an opposite direction to the application direction. 3. The method according to claim 1 , further comprising continuously operating the preheating radiant heater until the object is completed. 4. The method according to claim 1 , further comprising arranging the locally effective radiant heater a predefined distance from the surface of the pulverulent building material to be heated. 5. A method for making a three-dimensional object by layer-wise application and selective solidification of a pulverulent building material comprising the steps of: applying a layer of the pulverulent building material onto a build area with an application device, the application device comprising a recoating unit movable across the build area in an application direction, the recoating unit having a well formed therein which receives the pulverulent building material at a top end and discharges the pulverulent building material through a bottom end as the recoating unit moves across the build area; providing a supply of the pulverulent building material; providing a preheating module into which the pulverulent building material is fed from the supply, the preheating module being stationarily mounted relative to the supply and the recoating unit and arranged to deliver pre-heated pulverulent building material to the well when the recoating unit is temporarily positioned under an outlet of the preheating module in a course of movement of the application device, the preheating module defining an interior space within which pulverulent building material is supplied; and providing a metering device at a bottom of the interior space upstream from the outlet, the preheating module further including a preheating radiant heater located above and spaced from a surface of the pulverulent building material supplied to the interior space, the preheating radiant heater being located to extend its heating in an area confined to the surface of the pulverulent building material, wherein a portion of the pulverulent building material is received by the preheating module interior space from the supply using a supply dosing unit that meters the pulverulent building material, the pulverulent building material is heated in the preheating module by the radiant heater to a predetermined preheated temperature, and further comprising fluidizing the pulverulent building material in the preheating unit by passing heated protective gas through the pulverulent building material, the preheated pulverulent building material is transferred from the preheating module to the recoating unit through a controlled discharge from the outlet using the metering device. 6. The method of claim 5 , wherein the radiant heater is operated continuously throughout applying of a layer to thereby maintain the pulverulent building material within the preheating module at a generally constant temperature. 7. The method of claim 5 , further comprising providing a further radiant heater in addition to the radiant heater of the preheating module that globally heats the layer of the pulverulent building material after being applied by the application device. 8. The method of claim 5 , wherein the preheating module further comprises a fluidization unit for supplying a protective gas to the interior space of the preheating module to fluidize the pulverulent building material received therein. 9. The method of claim 5 , wherein the preheating module further comprises a stirring unit that mixes the pulverulent building material received in the interior space. 10. The method of claim 5 , wherein the preheating module further comprises a purging unit that blows pulverulent building material off the radiant heater. 11. The method according to claim 5 , further comprising arranging the radiant heater a predefined distance from the surface of the pulverulent building material to be heated. 12. A method for making a three-dimensional object by layer-wise application and selective solidification of a pulverulent building material in an Additive Manufacturing (AM) apparatus which generatively builds the object by fusing consecutive layers of the pulverulent building material corresponding to respective cross sections of the object using a source of energy that fuses the pulverulent building material in a layer, comprising the steps of: applying a layer of the pulverulent building material onto a build area with an application device, the application device comprising a recoating unit movable across the build area in an application direction, the recoating unit having a space formed therein which receives the pulverulent building material at a top end from a supply and discharges the pulverulent building material through a bottom end as the recoating unit moves across the build area; the AM apparatus further comprising a preheating module into which pulverulent building material is fed from a supply, the preheating module being arranged separate from the recoating unit and stationarily located at a point of travel of the recoating unit, and arranged to