Abstract: A self-cooling fluid container for beverages includes a beverage chamber and a refrigerant chamber in a nested configuration. Release of the refrigerant effects cooling of the beverage as a result of conductive heat transfer between the expanding refrigerant and the beverage chamber. The refrigerant chamber is wholly self-contained and nests snugly within a recess formed in the beverage chamber, thereby providing enhanced wall thickness and strength for containing a pressurized refrigerant, as well as enhanced heat transfer between the beverage chamber and the refrigerant chamber.
Abstract: A self-cooling fluid container includes a fluid chamber for containing the fluid-to-be-cooled. A refrigerant chamber, containing a pressurized refrigerant, is integral with the base of the fluid chamber and extends at least partially into the fluid chamber. The interior region of the refrigerant chamber is fluidicly isolated from and thermally coupled to the interior region of the fluid chamber. A refrigerant dispersal assembly defines a vented dispersal region including a portion adjacent to the refrigerant chamber and separated from the interior of that chamber by a perforatable wall. A cooling activator is adapted to selectively form a fluidic path from the interior of the refrigerant chamber to the dispersal region through the perforatable wall, permitting release and expansion of the pressurized refrigerant.
Abstract: A self-cooling fluid container includes a fluid chamber for containing the fluid-to-be-cooled. A refrigerant chamber, containing a pressurized refrigerant, is affixed to the base of the fluid chamber and extends at least partially into the fluid chamber. The interior region of the refrigerant chamber is fluidicly isolated from and thermally coupled to the interior region of the fluid chamber. A refrigerant dispersal assembly defines a vented dispersal region including a portion adjacent to the refrigerant chamber and separated from the interior of that chamber by a perforatable wall. A cooling activator is adapted to selectively form a fluidic path from the interior of the refrigerant chamber to the dispersal region through the perforatable wall, permitting release and expansion of the pressurized refrigerant.
Type:
Grant
Filed:
January 29, 1992
Date of Patent:
June 1, 1993
Assignee:
Envirochill International Ltd.
Inventors:
Gary R. Aitchison, Michael W. Hetherington