Additive manufacturing apparatus and method

The invention claimed is: 1. An additive manufacturing apparatus for building objects by layerwise consolidation of material, the apparatus comprising: a build chamber containing a build platform that defines a working area, a laser module configured to generate a laser beam, an optical module configured to direct the laser beam to a working area to consolidate material deposited in the working area in layers, a first flow device comprising a gas inlet configured to propel gas into a volume above the working are, and a second flow device comprising an elongate gas outlet configured to draw gas from the volume so as to generate a gas flow between the gas inlet and gas outlet, wherein the second flow device is arranged to be movable within the build chamber during the build, and the elongate gas outlet extends across an entire width of the working area, the second flow device movable in a linear direction transverse to a longitudinal axis of the elongate gas outlet. 2. An additive manufacturing apparatus for building objects by layerwise consolidation of material, the apparatus comprising: a build chamber containing a working area, a laser module configured to generate a laser beam, an optical module configured to direct the laser beam to a working area to consolidate material deposited in the working area in layers, a first flow device comprising a gas inlet configured to propel gas into a volume above the working area, and a second flow device comprising a gas outlet configured to draw gas from the volume so as to generate a gas flow between the gas inlet and gas outlet, wherein the second flow device is arranged to be movable within the build chamber during the build and the gas inlet is located at a fixed location within the build chamber. 3. An additive manufacturing apparatus for building objects by layerwise consolidation of material, the apparatus comprising: a build chamber containing a build platform that defines a working area, a laser module configured to generate a laser beam, an optical module configured to direct the laser beam to a working area to consolidate material deposited in the working area in layers, a first flow device comprising an elongate gas inlet to propel gas into a volume above the working area, and a second flow device comprising a gas outlet to draw gas from the volume so as to generate a gas flow between the gas inlet and gas outlet, wherein the first flow device is arranged to be movable within the build chamber during the build, and the elongate gas inlet extends across an entire width of the working area, the first flow device movable in a linear direction perpendicular to a longitudinal axis of the elongate gas inlet. 4. An additive manufacturing apparatus according to claim 3 , wherein the gas outlet comprises an elongate gas outlet that extends across an entire width of the working area. 5. An additive manufacturing apparatus according to claim 1 , comprising a gas flow device configured to control the gas flow through the gas inlet and/or gas outlet based upon a distance between the gas inlet and gas outlet. 6. An additive manufacturing apparatus according to claim 1 , wherein the first flow device and second flow device are arranged to be movable together such that relative positions of the gas inlet and gas outlet remain fixed. 7. An additive manufacturing apparatus according to claim 1 , wherein the second flow device is movable such that a distance between the gas inlet and gas outlet is less than a width of a working area in which an object is built. 8. An additive manufacturing apparatus according to claim 1 , comprising a control unit configured to control scanning of the material with the laser beam in accordance with a predetermined scanning plan and controlling movement of the second flow device based upon the scanning plan. 9. An additive manufacturing apparatus according to claim 1 , wherein the gas inlet is located at a fixed location within the build chamber. 10. An additive manufacturing apparatus according to claim 1 , wherein the gas inlet comprises an elongate gas inlet that extends across an entire width of the working area. 11. An additive manufacturing apparatus according to claim 10 , wherein the gas inlet is located at a fixed location within the build chamber. 12. An additive manufacturing apparatus according to claim 3 , comprising a gas flow device configured to control the gas flow through the gas inlet and/or gas outlet based upon a distance between the gas inlet and gas outlet. 13. An additive manufacturing apparatus according to claim 3 , wherein the first flow device and second flow device are arranged to be movable together such that relative positions of the gas inlet and gas outlet remain fixed. 14. An additive manufacturing apparatus according to claim 3 , wherein the first flow device is movable such that a distance between the gas inlet and gas outlet is less than a width of a working area in which an object is built. 15. An additive manufacturing apparatus according to claim 3 , comprising a control unit configured to control scanning of the material with the laser beam in accordance with a predetermined scanning plan and controlling movement of the first flow device based upon the scanning plan. 16. An additive manufacturing apparatus according to claim 2 , comprising a gas flow device configured to control the gas flow through the gas inlet and/or gas outlet based upon a distance between the gas inlet and gas outlet. 17. An additive manufacturing apparatus according to claim 2 , comprising a control unit configured to control scanning of the material with the laser beam in accordance with a predetermined scanning plan and controlling movement of the second flow device based upon the scanning plan.