Power feed mechanism for a three-dimensional printer

The invention claimed is: 1. A powder feed mechanism for transporting powdered build material from a powder chamber to a material bed of a three dimensional printer, the powder feed mechanism comprising: a carrier arm rotatable about a first axis to move back and forth through the powder chamber along an arc shaped path between a powder capture position and a powder delivery position; and a support platform having a powder support surface to carry a heap of powdered build material, the support platform rotatably attached to the carrier arm to move therewith through the powder chamber between the powder capture position and the powder delivery position and to rotate relative to the carrier arm about a second axis parallel to the first axis. 2. A powder feed mechanism according to claim 1 , wherein the powder support surface is flat and when the carrier arm is in the powder delivery position the powder support surface is in a transverse orientation to lie flush with the material bed. 3. A powder feed mechanism according to claim 1 , comprising a rotatable shaft that defines the first axis and wherein; the carrier arm comprises a pair of struts spaced apart and fixed to the rotatable shaft; and the support platform comprises an elongate slat that spans between the struts, the slat rotatably attached to the struts with hinges that define the second axis. 4. A powder feed mechanism according to claim 1 , comprising a powder chamber that includes: a front wall adjacent to the material bed, the front wall having a top edge for alignment with the top of the material bed and a lip along the top edge abutting the support platform when the carrier arm is in the powder delivery position; and a bottom surface that is curved to follow the path of the support platform towards the top edge of the front wall. 5. A powder feed mechanism according to claim 4 , wherein the bottom surface comprises a lower section shaped to contact the support platform during a first portion of movement along its path through the powder chamber, and an upper section shaped to be spaced from the support platform during a second portion of movement along its path through the powder chamber. 6. A powder feed mechanism according to claim 1 , wherein the support platform is rotatable about the second axis from a transverse orientation when the carrier arm is in the powder delivery position to an angled orientation as the carrier arm moves away from the powder delivery position. 7. A powder feed mechanism according to claim 6 including an abutment element on the carrier arm to block rotation of the orientation of the support platform about the second axis away from the transverse position during an upstroke movement of the carrier arm from the powder capture position to the powder delivery position. 8. A powder feed mechanism according to claim 1 including a wire or rod attached to the carrier arm to disturb powder in the powder chamber behind the support platform when the carrier arm is in the powder capture position. 9. A printer for building a three-dimensional model by sequential deposition of a plurality of cross-sectional layers, the printer comprising: a material bed; a powder chamber to hold build powder; a powder spreading mechanism to spread a heap of powder into a layer over the material bed; and a powder feed mechanism to present the heap of powder to the powder spreading mechanism, the powder feed mechanism including: a carrier arm rotatable about a first axis to move back and forth through the powder chamber between a powder capture position and a powder delivery position; and a support platform rotatably attached to the carrier arm to move back and forth with the carrier arm through powder in the powder chamber and to rotate about a second axis parallel to the first axis relative to the carrier arm as the support platform moves through powder in the powder chamber. 10. A printer according to claim 9 , wherein: the powder spreading mechanism is operable in both directions between a first side of the material bed and a second side of the material bed opposite to the first side; and the powder feed mechanism includes a first powder feed mechanism at the first side of the material bed and a second powder feed mechanism at the second side of the material bed. 11. A printer according to claim 9 including a powder treatment mechanism to selectively bond powder in the layer spread on the material bed. 12. A printer according to claim 11 , wherein the powder treatment mechanism includes a heat source arranged to generate thermal energy for heat-treating a selectable area of powder in the layer spread on the material bed.