Apparatus for fabricating three-dimensional object

What is claimed is: 1. An apparatus for fabricating a three-dimensional object, the apparatus comprising: a supply chamber to supply powder for fabrication of the three-dimensional object; a fabrication stage on which a fabrication layer in which powder particles are bound together is formed layer-by-layer; a flattener including a transfer roller to transfer powder from a top portion of the supply chamber to a top portion of the fabrication stage; and a controller to control and cause the flattener to move relatively in a horizontal moving direction from above the supply chamber to above the fabrication stage, the fabrication stage being disposed downstream in the horizontal moving direction from the supply chamber, wherein as the flattener moves in the horizontal moving direction from the supply chamber to the fabrication stage, the controller causes the transfer roller to rotate in a counter-rotation direction counter to the horizontal moving direction, to transfer the powder from the supply chamber to the fabrication stage, and as the flattener moves in the horizontal moving direction along a stage surface of the fabrication stage, the controller causes the transfer roller to rotate in a forward rotation direction opposite to the counter-rotation direction, to flatten a surface of powder on the fabrication stage to form a powder layer, wherein the controller controls the fabrication stage and the flattener to be relatively movable in a height direction, and in formation of the powder layer on the fabrication layer formed on the fabrication stage, the controller (a) controls the flattener to be moved to a position near an edge of the fabrication layer, and then (b) controls the flattener to be elevated to increase a distance between the flattener and the stationary fabrication stage in the height direction, and then (c) controls the flattener to be moved in the moving direction, parallel to the surface of the fabrication stage. 2. The apparatus according to claim 1 , wherein the controller controls operation of a leveling action to move the flattener in the moving direction with the distance being increased, to level down an upheaval of the powder formed upstream from the flattener in the moving direction. 3. The apparatus according to claim 2 , wherein, when a number of layers or thickness of the fabrication layer is greater than a threshold value, the controller causes the apparatus to perform the operation a reduced number of times or does not perform the operation. 4. The apparatus according to claim 2 , wherein, when a distance between an edge of the fabrication layer and an edge of the fabrication stage in the moving direction of the flattener is greater than a threshold value, the controller causes the apparatus to perform the operation a reduced number of times or does not perform the operation. 5. The apparatus according to claim 2 , wherein a number of times of the operation to be performed is changeable according to a shape of the fabrication layer formed on the fabrication stage. 6. An apparatus for fabricating a three-dimensional object, the apparatus comprising: a fabrication stage on which a fabrication layer in which powder particles are bound together is formed layer-by-layer; a flattener; and a controller to control and cause the flattener to move relatively in a moving direction along a stage surface of the fabrication stage and flatten a surface of powder on the fabrication stage to form a powder layer, the flattener including a first flattening roller and a second flattening roller, wherein, in formation of the powder layer, (i) the first flattening roller is disposed on a downstream side, in the moving direction, relative to where the second flattening roller is placed, (ii) the first flattening roller is disposed at a position higher than the second flattening roller in a vertical direction perpendicular to the moving direction, (iii) the controller controls the first flattening roller to rotate forward in a relative moving direction with respect to the fabrication stage, and (iv) the controller controls the second flattening roller to rotate in reverse in a relative moving direction with respect to the fabrication stage. 7. The apparatus according to claim 6 , wherein a peripheral speed of the first flattening roller is controlled by the controller to be not less than a relative moving speed of the fabrication stage and the first flattening roller. 8. The apparatus according to claim 6 , wherein a peripheral speed of the first flattening roller is changeable by control by the controller according to at least one of a cross-sectional shape of the fabrication layer and a positional relation of the fabrication stage and the first flattening roller.