Methods for dispensing and compacting insulation materials into a vacuum sealed structure

What is claimed is: 1. An insulated structure for an appliance, the insulated structure comprising: a first planar sheet that defines a predetermined contoured shape that is configured to correspond to a base formation; a pre-densified core member that includes a compacted and silica-based insulating powder, wherein the pre-densified core member is in direct engagement with an outward facing surface of the first planar sheet; and a second planar sheet that is formed against the pre-densified core member, wherein the first and second planar sheets are sealed together to define an insulating cavity having the pre-densified core member disposed therein. 2. The insulated structure of claim 1 , wherein the insulating cavity defines an at least partial vacuum and the first and second planar sheets and the pre-densified core member define a vacuum insulated structure. 3. The insulated structure of claim 2 , wherein the vacuum insulated structure is free of a barrier film disposed in the insulating cavity. 4. The insulated structure of claim 1 , wherein the pre-densified core member has an outer profile that is configured to match a forming cavity of the base formation. 5. The insulated structure of claim 4 , wherein the base formation is configured to shape the first planar sheet to match the outer profile of the pre-densified core member. 6. The insulated structure of claim 1 , wherein the pre-densified core member is a silica-based granular insulating material, and wherein the silica-based insulating powder includes at least one of fumed silica and precipitated silica. 7. The insulated structure of claim 1 , wherein the first and second planar sheets define an inner liner and an outer wrapper, respectively, and the pre-densified core member is positioned between the inner liner and the outer wrapper before the outer wrapper and the inner liner are attached together. 8. The insulated structure of claim 1 , wherein the pre-densified core member is a three-dimensional core member. 9. The insulated structure of claim 8 , wherein the three-dimensional core member is bonded to at least one of the first and second planar sheets. 10. The insulated structure of claim 1 , wherein the pre-densified core member is a three-dimensional core member that includes at least one binder material. 11. The insulated structure of claim 10 , wherein the at least one binder material includes at least one of cellulose, wax, polyethylene glycol, gelatin, starch, polyvinyl alcohol, polymethacrylate and sodium silicate. 12. An insulated structure for an appliance, the insulated structure comprising: a first metallic sheet that defines a predetermined contoured shape that is configured to correspond to a base formation; a pre-densified core member that includes a compacted and silica-based insulating powder and includes a cabinet-shaped three-dimensional core member, wherein the pre-densified core member is in direct engagement with an outward facing surface of the first metallic sheet; and a second metallic sheet that is formed against the pre-densified core member, wherein the first and second metallic sheets are sealed together to define an insulating cavity having the pre-densified core member disposed therein, wherein the insulating cavity defines an at least partial vacuum and the first and second metallic sheets and the pre-densified core member define a vacuum insulated structure. 13. The insulated structure of claim 12 , wherein the vacuum insulated structure is free of a barrier film disposed in the insulating cavity. 14. The insulated structure of claim 12 , wherein the pre-densified core member has an outer profile that is configured to match a forming cavity of the base formation. 15. The insulated structure of claim 12 , wherein the pre-densified core member is a silica-based granular insulating material that includes at least one of fumed silica and precipitated silica. 16. The insulated structure of claim 12 , wherein the first and second metallic sheets define an inner liner and an outer wrapper, respectively, and the pre-densified core member is positioned between the inner liner and the outer wrapper before the outer wrapper and the inner liner are attached together. 17. The insulated structure of claim 12 , wherein the cabinet-shaped three-dimensional core member is bonded to at least one of the first and second metallic sheets. 18. The insulated structure of claim 12 , wherein the cabinet-shaped three-dimensional core member includes at least one binder material, wherein the at least one binder material includes at least one of cellulose, wax, polyethylene glycol, gelatin, starch, polyvinyl alcohol, polymethacrylate and sodium silicate. 19. An insulated structure for an appliance, the insulated structure comprising: a first metallic sheet that defines a predetermined contoured shape that is configured to correspond to a base formation; a pre-densified core member that includes a compacted and silica-based insulating powder and includes a cabinet-shaped three-dimensional configuration, wherein the pre-densified core member is in direct engagement with an outward facing surface of the first metallic sheet; and a second metallic sheet that is formed against the pre-densified core member, wherein the first and second metallic sheets are sealed together to define an insulating cavity having the pre-densified core member disposed therein, wherein the insulating cavity defines an at least partial vacuum and the first and second metallic sheets and the pre-densified core member define a vacuum insulated structure wherein the pre-densified core member is adhered to at least one of the first and second metallic sheets. 20. The insulated structure of claim 19 , wherein the vacuum insulated structure is free of a barrier film disposed in the insulating cavity.