Method for forming a vacuum insulated structure

What is claimed is: 1. A method of forming a vacuum insulated structure, the method comprising steps of: attaching an inner liner to an outer wrapper to define a structural cabinet, the outer wrapper defining a plurality of outer surfaces of the structural cabinet and the inner liner defining a plurality of inner compartment surfaces of the structural cabinet; attaching an expanding device to the plurality of outer surfaces and the plurality of inner compartment surfaces of the structural cabinet; expanding an interior cavity of the structural cabinet by pulling the plurality of outer surfaces away from the plurality of inner compartment surfaces and also pulling the plurality of inner compartment surfaces away from the plurality of outer surfaces to define an expanded interior volume of the structural cabinet; disposing an insulating material within the expanded interior volume of an insulating cavity, wherein the insulating material occupies substantially all of the expanded interior volume; expressing gas from the insulating cavity via a vacuum port of the structural cabinet, wherein expression of the gas at least partially draws the plurality of outer surfaces toward the plurality of inner compartment surfaces and partially draws the plurality of inner compartment surfaces toward the plurality of outer surfaces to define a final state of the structural cabinet, the final state defined by a contracted interior volume that is less than the expanded interior volume and corresponds to a densified state of the insulating material within the insulating cavity; and closing the vacuum port to hermetically seal the insulating cavity. 2. The method of claim 1 , wherein the expanding device includes a plurality of pulling pads that engage the plurality of outer surfaces of the outer wrapper and the plurality of inner compartment surfaces of the inner liner, respectively, and wherein each respective pulling pad of the plurality of pulling pads is adapted to cover at least 50 percent of an expandable surface to which the respective pulling pad attaches, each expandable surface being one of the outer surfaces and the inner compartment surfaces. 3. The method of claim 2 , wherein the outer wrapper is a metallic member and the plurality of pulling pads that engage the plurality of outer surfaces of the structural cabinet include a magnetic attachment mechanism, and wherein the magnetic attachment mechanism is an electromagnet that is operable to selectively define a magnetic field to attach to one of the plurality of outer surfaces of the outer wrapper. 4. The method of claim 2 , wherein the inner liner is a plastic member and the plurality of pulling pads that engage the plurality of inner compartment surfaces of the inner liner include a suction-type attachment mechanism, and wherein the suction-type attachment mechanism is in communication with a vacuum pump. 5. The method of claim 2 , wherein the plurality of pulling pads that engage the plurality of inner compartment surfaces are connected together via a linkage mechanism, wherein the linkage mechanism is coupled to a pulling device, and wherein the pulling device and the linkage mechanism cooperate to translate a single pulling force exerted in a first direction into a plurality of subsidiary pulling forces that are exerted to pull each of the plurality of inner compartment surfaces in a generally perpendicular direction with respect to a respective opposing outer surface of the outer wrapper. 6. The method of claim 1 , wherein an expanded state of the structural cabinet includes a wall thickness that is in a range of from approximately 2 millimeters to approximately 6 millimeters thicker than the wall thickness of the structural cabinet in the final state. 7. The method of claim 1 , wherein the step of expressing the gas from the insulating cavity via the vacuum port of the structural cabinet causes a compression of the insulating material that compacts the insulating material to define the densified state. 8. The method of claim 7 , wherein the densified state of the insulating material resists inward bowing of the inner liner and the outer wrapper. 9. A method of forming a vacuum insulated structure, the method comprising steps of: forming a structural envelope; attaching an expanding device to an outer surface of the structural envelope; expanding an interior cavity of the structural envelope by pulling portions of the outer surface away from the interior cavity to define an expanded interior volume of the structural envelope; disposing an insulating material within the expanded interior volume of the interior cavity to define an insulating cavity, wherein the insulating material occupies substantially all of the expanded interior volume; expressing gas from the insulating cavity via a vacuum port of the structural envelope, wherein expression of the gas at least partially draws the portions of the outer surface inward and toward the insulating material to define a final state of the structural envelope, the final state defined by a contracted interior volume that is less than the expanded interior volume and corresponds to a densified state of the insulating material within the insulating cavity; and closing the vacuum port to seal the insulating cavity. 10. The method of claim 9 , wherein the structural envelope is an insulated panel, and wherein the step of attaching the expanding device includes placing the insulated panel within a retaining structure that engages a perimetrical edge of the insulated panel. 11. The method of claim 10 , wherein the retaining structure maintains the perimetrical edge of the structural envelope in a consistent shape during the step of attaching the expanding device and the step of expressing the gas. 12. The method of claim 10 , wherein the step of attaching the expanding device further includes attaching the expanding device to two opposing outer walls of a structural panel. 13. The method of claim 9 , wherein the structural envelope is a structural cabinet that includes an outer wrapper and an inner liner, wherein the outer surface includes a plurality of outer wrapper surfaces of the outer wrapper of the structural cabinet and the inner liner defining a plurality of inner compartment surfaces of the structural cabinet. 14. The method of claim 13 , wherein the step of attaching the expanding device includes attaching the expanding device to the plurality of outer wrapper surfaces and the plurality of inner compartment surfaces of the structural cabinet. 15. The method of claim 14 , wherein the step of expanding the interior cavity of the structural envelope includes pulling the plurality of outer wrapper surfaces away from the plurality of inner compartment surfaces and also pulling the plurality of inner compartment surfaces away from the plurality of outer wrapper surfaces to define the expanded interior volume of the structural cabinet. 16. The method of claim 15 , wherein the expanding device includes a plurality of pulling pads that engage the plurality of outer wrapper surfaces of the outer wrapper and the plurality of inner compartment surfaces of the inner liner, respectively, and wherein each respective pulling pad is adapted to cover at least 50 percent of an expandable surface to which the respective pulling pad attaches, each expandable surface being one of the plurality of outer wrapper surfaces and the plurality of inner compartment surfaces. 17. The method of claim 9 , wherein the expanding device includes expanding pads that are one of magnetically operated and suction-operated, w