Vibration isolation device for an additive manufacturing machine

What is claimed is: 1. A build unit for an additive manufacturing machine, the build unit comprising: a powder dispenser comprising a vibration mechanism, the powder dispenser configured for depositing a layer of additive powder; a scan unit comprising a powder fusing device for fusing a portion of the layer of additive powder; a gantry movably supporting the scan unit; and a vibration isolation device positioned between and coupling the powder dispenser and the scan unit, wherein the vibration isolation device is an active vibration canceling system such that the scan unit experiences a lower level of vibration than the powder dispenser. 2. The build unit of claim 1 , wherein the active vibration canceling system comprises: a vibration sensor for detecting vibrations; and a vibrating mechanism for inducing counteracting vibrations in the scan unit. 3. The build unit of claim 1 , wherein the build unit comprises: a recoater blade positioned adjacent the powder dispenser, the vibration isolation device being positioned between the recoater blade and the powder dispenser. 4. The build unit of claim 1 , wherein the scan unit comprises: a gasflow device that provides a substantially laminar flow of gas proximate a work surface, the vibration isolation device coupling the gasflow device and the powder dispenser. 5. The build unit of claim 4 , wherein the vibration isolation device is a first vibration isolation device and the gasflow device is positioned below the powder fusing device, the build unit further comprising: a second vibration isolation device coupling the powder fusing device and the gasflow device. 6. The build unit of claim 1 , wherein the powder fusing device is an irradiation emission directing device for selectively directing an energy beam onto the layer of additive powder. 7. The build unit of claim 6 , wherein the energy beam is a laser beam or an electron beam. 8. The build unit of claim 1 , wherein the powder fusing device is a binder jet print head for depositing a binding agent on the layer of additive powder. 9. The build unit of claim 1 , wherein the powder dispenser is coupled to scan unit through the vibration isolation device such that powder dispenser is supported in a cantilevered manner relative to scan unit. 10. The build unit of claim 1 , wherein the powder dispenser is suspended from the scan unit through the vibration isolation device. 11. An additive manufacturing machine comprising: a build unit comprising a powder dispenser and a scan unit; a gantry movably supporting the build unit; and a vibration isolation device positioned between and coupling the powder dispenser and the scan unit, wherein the vibration isolation device is an active vibration canceling system such that the scan unit experiences a lower level of vibration than the powder dispenser. 12. The additive manufacturing machine of claim 11 , wherein the active vibration canceling system comprises: a vibration sensor for detecting vibrations; and a vibrating mechanism for inducing counteracting vibrations in the scan unit. 13. The additive manufacturing machine of claim 11 , wherein the powder dispenser is coupled to scan unit through the vibration isolation device such that powder dispenser is supported in a cantilevered manner relative to scan unit. 14. The additive manufacturing machine of claim 11 , wherein the scan unit comprises an irradiation emission directing device for selectively directing an energy beam onto the layer of additive powder. 15. The additive manufacturing machine of claim 14 , wherein the energy beam is a laser beam or an electron beam. 16. The additive manufacturing machine of claim 11 , wherein the scan unit comprises a binder jet print head for depositing a binding agent on the layer of additive powder.