Method, apparatus, and control unit for producing a three-dimensional object

The invention claimed is: 1. A method for controlling the direction of gas suctioning in an apparatus for producing a three-dimensional object by selective solidification of a building material layer by layer, the apparatus comprising: an application device for applying a layer of the building material on a build area in a working plane; a solidifying device for selectively solidifying the building material in the layer; repeating application and solidification in consecutive layers in accordance with cross-sections of the object to be built; providing at least two gas nozzles that are arranged adjacent an outer boundary of the build area, the gas nozzles being spaced apart so as to generate exhaust gas flows that are concentrated across different zones of the build area and collectively cover an entirety of build area, wherein the gas nozzles are selectively switched by a controller unit into a function state for extracting gas from the build area, and into a functionless state where the gas nozzles do not extract gas; and switching the gas nozzles into either a function state or a functionless state depending on a site undergoing solidification, wherein a selected gas nozzle is selected for suctioning gas if the selected gas nozzle is a closest of the gas nozzles to the site undergoing solidification and an unselected gas nozzle is placed in a functionless state. 2. The method of claim 1 , further comprising: switching a first gas nozzle to the function state for suctioning gas if the first gas nozzle is closer to the current solidification site than a second gas nozzle. 3. The method according to claim 1 , wherein the build area is divided into predetermined areas and the gas nozzles are switched depending on which of the predetermined areas is undergoing solidification. 4. The method according to claim 1 , wherein the gas nozzles are further selectively switchable into a function state for supplying gas to the apparatus so as to establish supplying nozzles, and at least one of the gas nozzles that is/are different from the one or more supplying nozzles is/are switched into the function state for supplying gas. 5. The method according to claim 1 , wherein the gas nozzles are switched during the selective solidification of the layer. 6. A method for producing a three-dimensional object by applying a building material layer by layer and selectively solidifying the building material, comprising the steps of: a) applying a layer of the building material to a build area in a working plane; b) selectively solidifying the layer of the building material at sites of the layer that correspond to a cross section of the object to be produced; and c) repeating steps a) and b) until the object is completed, wherein during manufacture of the object a gas is suctioned through at least one of two gas nozzles that are arranged adjacent an outer boundary of the build area, the gas nozzles being spaced apart so as to generate exhaust gas flows that are concentrated across different zones of the build area but combined cover the entire build area; wherein the gas nozzles are selectively switched by a controller unit into a function state for extracting gas from the build area, and into a functionless state where the gas nozzles do not extract gas; wherein the gas nozzles are switched into either the function state or the functionless state depending on a site undergoing solidification; and wherein a selected gas nozzle is selected for suctioning gas if the selected gas nozzle is a closest of the gas nozzles to the site undergoing solidification and an unselected gas nozzle is placed in the functionless state. 7. The method according to claim 6 , wherein the site undergoing solidification is controlled depending on a switching state of the gas nozzles. 8. An apparatus for producing a three-dimensional object by selective solidification of building material layer by layer, the apparatus comprising: an application device for applying a layer of the building material to a build area in a working plane; a solidifying device for selectively solidifying the building material in the layer; and at least two gas nozzles that are arranged adjacent an outer boundary of the build area, the gas nozzles being spaced apart so as to generate exhaust gas flows that are concentrated across different zones of the build area and collectively cover an entirety of the build area, wherein the gas nozzles can be switched into a function state for suctioning gas from the build area and into a functionless state, where the gas nozzles do not suction gas; and a control unit designed to switch the gas nozzles depending on a site undergoing solidification, the control unit switching gas nozzles into either the function state or the functionless state, wherein a selected gas nozzle is selected for suctioning gas if the selected gas nozzle is a closest of the gas nozzles to the site undergoing solidification, and an unselected gas nozzle is placed in the functionless state. 9. The apparatus according to claim 8 , designed to control or regulate the solidifying device to define the solidification site. 10. A retrofit kit for a device for producing a three-dimensional object by selectively solidifying a building material layer by layer, wherein the retrofit kit comprises: at least two gas nozzles, the at least two gas nozzles adapted to be arranged adjacent an outer boundary of a build area, the gas nozzles being spaced apart so as to generate exhaust gas flows that are concentrated across different zones of the build area and collectively cover an entirety of the build area, wherein the gas nozzles can be switched into a function state for suctioning gas from the build area and into a functionless state, where the gas nozzles do not suction gas; and a control unit designed to switch the gas nozzles depending on a site undergoing solidification, the control unit switching gas nozzles into either the function state or the functionless state. 11. An apparatus for producing a three-dimensional object by selective solidification of a building material layer by layer, comprising: an application device for applying a layer of building material to a build area in a working plane; a solidifying device for selectively solidifying the building material in the layer; and at least two gas nozzles that are arranged adjacent an outer boundary of the build area, the gas nozzles being spaced apart so as to generate exhaust gas flows that are concentrated across different zones of the build area and collectively cover an entirety of the build area, wherein the gas nozzles are selectively switchable by a controller unit into a function state for suctioning gas out from the build area and into a functionless state, where the gas nozzles do not suction gas; wherein the device is designed to switch the gas nozzles into either a function state or a functionless state depending on a site undergoing solidification; wherein the gas nozzles are further switchable into a function state for feeding gas into the apparatus to generate a flow of gas across the build area; and wherein the apparatus further comprises a controller unit designed to select a selected gas nozzle for suctioning gas if the selected gas nozzle is a closest of the gas nozzles to the site undergoing solidification, and an unselected gas nozzle is placed in the functionless state, and to operate one or more gas nozzles to generate a feeding gas flow. 12. A device according to claim 11 , wherein the build area in the working plane has a rectangular shape, and two gas nozzles are provided, which are respectively arranged on opposite sides of the rectangular shape