Thermal bridgebreaker and seal features in a thin-walled vacuum insulated structure

What is claimed is: 1. A vacuum insulated refrigerator structure, comprising: an outer wrapper having a first opening and a first edge extending around the first opening; a liner having a second opening and a second edge extending around the second opening, wherein the liner is disposed inside the wrapper with the first and second edges being spaced apart to form a first gap therebetween and to form a vacuum cavity between the wrapper and the liner; an insulating thermal bridge extending across the first gap, wherein the thermal bridge includes elongated first and second channels, at least one of the first and second channels includes a base surface and spaced-apart side surfaces extending transversely from the base surface, and wherein the side surfaces include a plurality of bosses protruding into the channel, and wherein the first and second edges are disposed in the first and second channels, respectively, and the bosses position the first and second edge portions of the wrapper and the liner, respectively, away from the side surfaces to form edge gaps therebetween that are filled with sealant; sealant disposed in the first and second channels, including the edge gaps, to seal the vacuum cavity and maintain a vacuum in the vacuum cavity; and porous material disposed in the vacuum cavity. 2. The vacuum insulated refrigerator structure of claim 1 , wherein: the first and second channels include a plurality of bosses protruding from both side surfaces thereof. 3. The vacuum insulated refrigerator structure of claim 1 , wherein: the first and second edges are encapsulated by the sealant. 4. The vacuum insulated refrigerator structure of claim 1 , wherein: the first and second edges include a planar surface and a plurality of dimples protruding from the planar surface. 5. The vacuum insulated refrigerator structure of claim 1 , wherein: the bosses are substantially rigid. 6. A method of making a vacuum insulated refrigerator structure, the method comprising: forming a wrapper from a sheet of material whereby the wrapper has a first opening and a first edge extending around the first opening; forming a liner from a sheet of material whereby the liner has a second opening and a second edge extending around the second opening; positioning the liner inside the wrapper with the first and second edges being spaced apart to form a gap therebetween, and to form a cavity between the wrapper and the liner; positioning an insulating thermal bridge across the gap, wherein the thermal bridge includes elongated first and second channels, wherein at least one of the first and second channels includes a base surface and spaced-apart side surfaces extending transversely from the base surface, and wherein at least one of the side surfaces includes a plurality of bosses protruding into the channel, and wherein at least one of the first and second channels includes a plurality of bosses protruding into the channel from both side surfaces; inserting the first and second edges into the first and second channels, respectively; positioning curable sealant in the first and second channels; causing porous material to at least partially fill the cavity between the wrapper and the liner; forming a vacuum in the cavity; sealing the cavity to maintain the vacuum; and including: causing at least one of the first and second edges to contact at least one boss as the first and second edges are inserted into the first and second channels, respectively. 7. The method of claim 6 , wherein: the gap is ring-shaped; the bosses are tapered such that the first and second edges of the wrapper and the liner, respectively, slidably engage the bosses as the ring-shaped insulating thermal bridge is positioned across the ring-shaped gap. 8. The method of claim 7 , including: utilizing the bosses to position the first and second edge portions of the wrapper and the liner, respectively, away from the side surfaces and to form gaps therebetween. 9. The method of claim 8 , including: injecting curable sealant into the gaps between the first and second edge portions and the side surfaces after the ring-shaped insulating thermal bridge is positioned across the ring-shaped gap. 10. The method of claim 8 , including: utilizing the bosses to position the first and second edge portions in central portions of the first and second channels, respectively. 11. A method of making a vacuum insulated refrigerator structure, the method comprising: forming a wrapper from a sheet of material whereby the wrapper has a first opening and a first edge extending around the first opening; forming a liner from a sheet of material whereby the liner has a second opening and a second edge extending around the second opening; positioning the liner inside the wrapper with the first and second edges being spaced apart to form a first gap therebetween, and to form a cavity between the wrapper and the liner; positioning an insulating thermal bridge across the first gap, wherein the thermal bridge includes elongated first and second channels, each having a base surface and side surfaces extending transversely from the base surface, wherein the first and second channels include a plurality of bosses protruding from the side surfaces thereof; inserting the first and second edges into the first and second channels, respectively; causing at least one of the first and second edges to contact at least one boss as the first and second edges are inserted into the first and second channels, respectively, to form edge gaps on opposite sides of the at least one edge between the at least one edge and the side surfaces adjacent the at least one boss; positioning curable sealant in the first and second channels in the edge gaps on opposite sides of the at least one edge; causing porous material to at least partially fill the cavity between the wrapper and the liner; forming a vacuum in the cavity; and sealing the cavity to maintain the vacuum. 12. The method of claim 11 , wherein: the first gap is ring-shaped; the insulating thermal bridge is ring-shaped and including: positioning curable sealant in the first and second channels before the ring-shaped insulating thermal bridge is positioned across the ring-shaped first gap. 13. The method of claim 11 , including: thermoforming the liner from a sheet of thermoplastic polymer material; forming the wrapper from sheet metal; and molding a ring-shaped insulating thermal bridge from a polymeric material. 14. The method of claim 11 , wherein: forming the wrapper includes forming the first edge to include four linear portions forming a first rectangle; forming the liner includes forming the second edge to include four linear portions forming a second rectangle. 15. The method of claim 11 , including: positioning the opening of the liner to face in a forward direction; positioning linear portions of the first and second edges at substantially the same fore-aft position; and at least a portion of the insulating thermal bridge has a U-shape in cross section, and the elongated first and second channels extend along opposite ends of the U-shape. 16. The method of claim 11 , including: offsetting at least a portion of the second edge inwardly relative to the first edge; and wherein: at least a portion of the insulating thermal bridge has a J-shape in cross section; and the elongated first and second channels extend along opposite ends of the J-shape. 17. The method of claim 11 , wherein: the porous material comprises at least one core panel; and including