Insertable thermotic module for self-heating can
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IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
F24J-001/00
출원번호
US-0329740
(2002-12-26)
발명자
/ 주소
Kolb,Kenneth W.
출원인 / 주소
Expressasia Berhad
대리인 / 주소
Jones, Walker, Waechter, Poitevent, Carrere &
인용정보
피인용 횟수 :
14인용 특허 :
32
초록▼
A thermic module for a self-heating container. The container includes a bottom end with a cavity having internal walls formed therein for receiving the thermic module. The thermic module will be comprised of a first cup having plastic walls and containing a first chemical reactant. The module will
A thermic module for a self-heating container. The container includes a bottom end with a cavity having internal walls formed therein for receiving the thermic module. The thermic module will be comprised of a first cup having plastic walls and containing a first chemical reactant. The module will also include a second cup containing a second chemical reactant and a dividing wall positioned between the first and second cups such that the first and second chemical reactants cannot mix. An end cap will be positioned below the second cup and will retain the second chemical reactant within the second cup. An actuator for puncturing the dividing wall will be positioned between the end cap and the dividing wall. Finally, the walls of the first cup are formed of a plastic of sufficient thinness and having a sufficiently low Vicat Softening Point such that the plastic walls will expand into contact with the internal walls of the container cavity upon mixing of the first and second chemical reactants.
대표청구항▼
I claim: 1. A thermic module for a self-heating container, wherein said container includes a bottom end with a cavity having internal walls formed therein for receiving said thermic module, said thermic module further comprising: a. a first cup having plastic walls and containing a first chemical r
I claim: 1. A thermic module for a self-heating container, wherein said container includes a bottom end with a cavity having internal walls formed therein for receiving said thermic module, said thermic module further comprising: a. a first cup having plastic walls and containing a first chemical reactant; b. a second cup containing a second chemical reactant; c. a dividing wall positioned between said first and second cups such that said first and second chemical reactants cannot mix; d. an end cap positioned below said second cup and retaining said second chemical reactant within said second cup; e. an actuator for puncturing said dividing wall positioned between said end cap and said dividing wall; and f. wherein said walls of said first cup are formed of a plastic having a Vicat Softening Point of less than 140째 C. 2. The thermic module of claim 1, wherein said Vicat Softening Point is between about 120째 C. and about 60째 C. 3. The thermic module of claim 2, wherein said Vicat Softening Point is between about 90째 C. and about 60째 C. 4. The thermic module of claim 1, wherein said actuator comprises a piercing point, a sharper cutting edge extending laterally from said piercing point, and a blunter spreading edge extending laterally from said piercing point. 5. The thermic module of claim 1, wherein said actuator has a plurality of cutting edges and a plurality of spreading edges. 6. The thermic module of claim 1, wherein said walls of said first cup have a thickness of between about 0.001 and 0.3 mm. 7. The thermic module of claim 6, wherein said walls of said first cup have a thickness of between about 0.05 and 0.3 mm. 8. The thermic module of claim 7, wherein said walls of said first cup have a thickness of between about 0.1 and 0.2 mm. 9. The thermic module of claim 1, wherein said walls of said first cup are formed at least predominantly either polystyrene or polyvinyl chloride. 10. The thermic module of claim 1, wherein said second cup includes a side wall connecting to said dividing wall and said side wall of said second cup has a thickness of at least about 0.3 mm and said dividing wall has a thickness of about 0.2 mm. 11. The thermic module of claim 9, wherein said second cup is formed of a plastic having a Vicat Softening Point of greater than about 120째 C. 12. The thermic module of claim 4, wherein said actuator is formed of a plastic having a Vicat Softening Point of greater than about 120째 C. and a thickness of greater than about 0.3 mm. 13. The thermic module of claim 1, wherein side walls of said second cup are attached to said first cup and a separately formed dividing wall is positioned within said sidewalls of said second cup. 14. The thermic module of claim 13, wherein said separately formed dividing wall includes a perforate frame structure with a separate layer of sheeting material formed thereover. 15. The thermic module of claim 14, wherein said sheeting material is aluminum foil. 16. A self-heating container, wherein said container includes a bottom end with a cavity having internal walls formed therein for receiving a thermic module, said thermic module further comprising: a. a first chemical reactant positioned in said cavity; b. a cup containing a second chemical reactant said cup having a lip engaging said internal walls of said cavity; c. a dividing wall positioned between said first and second reactants such that said reactants are not in contact; d. an end cap positioned below said cup and retaining said second chemical reactant within said cup; e. an actuator for puncturing said dividing wall, said actuator positioned to be activated by pressure on said end cap; and f. a pressure activated vent comprising a vent seal positioned between said end cap and said cup lip such that said vent seal is compressed by said end cap engaging said bottom end of said container and a pressure created by the mixing of said first and second reactants must exceed about 2 psi before said vent is activated. 17. The self-heating container of claim 16, wherein said vent is activated by a pressure of between about 4 and about 7 psi. 18. The self-heating container of claim 16, wherein said vent seal is attached to and extends upwardly from said end cap. 19. The self-heating container of claim 16, wherein said first chemical reactant is positioned within a cup inside said cavity. 20. The self-heating container of claim 16, wherein the ratio by weight of a solid reactant to a liquid reactant is between about 0.2 and 0.5. 21. The self-heating container of claim 20, wherein the ratio by weight of a solid reactant to a liquid reactant is between about 0.3 and 0.4. 22. The self-heating container of claim 21, wherein the ratio by weight of a solid reactant to a liquid reactant is about 0.36. 23. A method of assembling a self-heating container comprising the steps of: a. providing a metal container which includes an enclosed space for a food or beverage, a sealable top end on said enclosed space, and a bottom end with a thermic module cavity having metal internal walls extending toward said top end; b. filling said enclosed space with a food or beverage and sealing said top end; c. sterilizing said sealed container; d. providing a thermic module which includes a plastic outer module wall and two reactants separated by an internal breakable barrier wall positioned within said thermic module; and e. after said sterilization step, securing in said thermic module in said cavity. 24. The method according to claim 23, wherein said step of providing said thermic module includes providing a thermic module which is capable of heating said food or beverage at least 40째 C. in about 180 seconds. 25. A self-heating container comprising: a. a metal container body having an enclosed volume for receiving a beverage and a bottom end with a cavity formed of metal internal walls extending upward into said enclosed volume; b. a thermic module sized to be inserted within said cavity, said thermic module including: i. a plastic cup containing a first chemical reactant and shaped to extend into said cavity and fit within close proximity to said metal internal walls, a dividing wall positioned between said first chemical reactant and a second chemical reactant such that said reactants are not in contact; ii. an end cap positioned below said cup; and iii. an actuator for puncturing said dividing wall, said actuator positioned to be activated by pressure on said end cap.
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