A temperature changing container includes a plurality of walls joined to form an enclosure which seals contents of the enclosure within the walls. One of the walls includes a depression extending into the enclosure. Upon activation, chemicals at least partially disposed within the depression change
A temperature changing container includes a plurality of walls joined to form an enclosure which seals contents of the enclosure within the walls. One of the walls includes a depression extending into the enclosure. Upon activation, chemicals at least partially disposed within the depression change temperature.
대표청구항▼
1. A self-heating container comprising; a cylindrical metal side wall;a top, can end joined to the metal side wall with a joint;a metal, bottom can end joined to the metal side wall to form an enclosure having an interior, the metal bottom can end including a depression extending into the interior;
1. A self-heating container comprising; a cylindrical metal side wall;a top, can end joined to the metal side wall with a joint;a metal, bottom can end joined to the metal side wall to form an enclosure having an interior, the metal bottom can end including a depression extending into the interior; wherein the depression has a depth and a radius, wherein the depth is less than the radius; anda heating element including a canister located at least partially within the depression, the canister having chemicals hermetically sealed therein and an activation structure configured to permit a user to cause the chemicals to react and increase the temperature of the interior of the container, wherein the canister is sized relative to the depression of the metal bottom can end such that the canister is held within the depression via an interference fit formed between an outer surface of the canister and a surface of the depression;wherein the canister is a cylindrical metal canister including a metal upper wall, a cylindrical metal side wall and a metal lower wall, wherein a diameter of the lower wall of the canister is less than a diameter of the bottom can end, wherein the depression is a cylindrical depression and wherein the interference fit is formed between an outer surface of the cylindrical metal side wall of the canister and a cylindrical surface of the depression;wherein the metal bottom can end and the metal lower wall of the canister are coplanar. 2. The container of claim 1, wherein at least a portion of cylindrical the metal side wall of the container is tapered. 3. The container of claim 1, wherein the depression includes ribs which interact with the canister to hold the canister within the depression. 4. The container of claim 1, wherein the top can end is joined to the cylindrical metal side wall of the container with a rolled joint. 5. The container of claim 4, wherein the bottom can end is joined to the cylindrical metal side wall of the container with a rolled joint, wherein the metal bottom can end includes a substantially horizontal section extending between the depression and the rolled joint joining the bottom can end to the cylindrical metal side wall of the container. 6. The container of claim 1, wherein the depression is a shaped to match the cylindrical canister, wherein the depth of the cylindrical depression is between 0.3 inches and 1.0 inches and the radius of the cylindrical depression is between 0.75 inches and 1.5 inches. 7. A temperature changing container comprising: a plurality of walls joined to form an enclosure which hermetically seals a contents of the enclosure within the walls, wherein one of the walls includes a depression extending into the contents of the enclosure, wherein the depression has a depth and a radius, wherein the depth is less than the radius; anda temperature changing element including a canister located at least partially within the depression, the canister having an upper end, a lower end, a sidewall joining the upper end and the lower end, and chemicals hermetically sealed therein and an activation structure configured to permit a user to cause the chemicals to change state to change the temperature of the canister, wherein an outermost diameter of the lower end of the canister is less than an outermost diameter of the wall including the depression;wherein the canister is a cylindrical metal canister including a metal upper wall, a cylindrical metal sidewall and a metal lower wall, wherein the depression is a cylindrical depression and wherein an interference fit is formed between an outer surface of the cylindrical metal sidewall of the canister and a cylindrical surface of the depression;wherein the wall including the depression and the metal lower wall of the canister are coplanar. 8. The container of claim 7, wherein one of the plurality walls of the container is a cylindrical side wall having at least a portion thereof tapered. 9. The container of claim 7, wherein the depression includes at least one rib which interacts with the canister to hold the canister within the depression. 10. The container of claim 8, wherein one of the plurality walls of the container is a top can end joined to the cylindrical side wall of the container with a rolled joint. 11. The container of claim 10, wherein one of the plurality of walls of the container is a bottom can end joined to the cylindrical side wall of the container with a rolled joint, wherein the wall including the depression includes a substantially horizontal section extending between the rolled joint and the depression. 12. A container comprising: a plurality of walls joined to form an enclosure which hermetically seals a contents of the enclosure within the walls, wherein one of the walls includes a depression extending into the contents of the enclosure, wherein the depression has a depth and a radius, wherein the depth is less than the radius; anda metal heating canister located at least partially within the depression, the heating canister having chemicals hermetically sealed therein and an activation structure configured to permit a user to cause the chemicals to change state to change the temperature of the heating canister, wherein the heating canister is sized relative to the depression such that the heating canister is held within the depression via an interference fit;wherein the heating canister is a cylindrical metal canister including a metal upper wall, a cylindrical metal sidewall and a metal lower wall, wherein a diameter of the lower wall of the canister is less than a diameter of the wall including the depression, wherein the interference fit is formed between an outer surface of the cylindrical metal sidewall of the canister and a cylindrical surface of the depression;wherein the wall including the depression and the metal lower wall of the canister are coplanar. 13. The container of claim 12, wherein one of the plurality walls of the container is a cylindrical side wall having at least a portion thereof tapered. 14. The container of claim 13, wherein the depression includes at least one rib which interacts with the canister to hold the canister within the depression. 15. The container of claim 13, wherein one of the plurality of walls of the container is a top can end joined to the cylindrical side wall of the container with a rolled joint. 16. The container of claim 15, wherein one of the plurality of walls of the container is a bottom can end joined to the cylindrical side wall of the container with a rolled joint. 17. The container of claim 12, wherein the activation structure is a portion of the canister deformable to permit the user to cause the chemicals therein to be pressed into contact with sufficient pressure to interact. 18. The container of claim 12, wherein the wall including the depression is joined to a sidewall of the container with a rolled joint, and the wall including the depression includes a substantially horizontal section extending between the rolled joint and the depression. 19. The container of claim 12, wherein an exterior surface of the wall including the depression and an exterior surface of a lower end of the heating canister are coplanar, wherein the heating canister has a height and radius, wherein the height is less than the radius. 20. A can end for a heated container comprising: a periphery configured to be coupled to a side wall of a can creating a hermetic seal between the side wall and the can end;a heating element;an interior portion, the interior portion defining a depression extending upwardly, the depression having a depth and a diameter, wherein the depth is less than the diameter, wherein the depression receives and forms an interference fit with the heating element; anda substantially horizontal section extending between the periphery and the depression;wherein the heating element includes a cylindrical metal canister including a metal upper wall, a cylindrical metal sidewall and a metal lower wall, wherein a diameter of the lower wall of the canister is less than a diameter defined by the periphery, wherein the depression is a cylindrical depression and wherein the interference fit is formed between an outer surface of the cylindrical metal sidewall of the canister and a cylindrical surface of the depression;wherein the substantially horizontal section and the metal lower wall of the canister are coplanar. 21. The can end of claim 20, wherein the depression is shaped to match the heating element, wherein the depth of the depression is between 0.3 inches and 1.0 inches and the radius of the depression is between 0.75 inches and 1.5 inches.
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이 특허에 인용된 특허 (14)
James Dean B. (Saratoga CA), Acid-base fuels for self heating food containers.
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