Beverage and food containers, inwardly directed foam
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B29D-022/00
B29D-023/00
B32B-001/08
B32B-001/00
B32B-027/08
B65D-039/00
출원번호
US-0113077
(2002-04-01)
발명자
/ 주소
DeBraal,John Charles
Lazar,John MacKay
출원인 / 주소
Appleton Papers Inc.
대리인 / 주소
Wilhelm Law Service, S.C.
인용정보
피인용 횟수 :
40인용 특허 :
19
초록▼
Beverage or food containers made from sheet material, and methods of making such containers. Such container comprises a layer of paperboard and an expanded foam layer applied as a coating in a liquid carrier, and affixed to a paperboard base layer. The expanded foam has a remote surface preferably d
Beverage or food containers made from sheet material, and methods of making such containers. Such container comprises a layer of paperboard and an expanded foam layer applied as a coating in a liquid carrier, and affixed to a paperboard base layer. The expanded foam has a remote surface preferably defined by intermingled peaks and valleys. The sheet material can include a protective cover layer overlying the remote surface. Such cover layer can comprise paper, plastic film, or foamed thermoplastic. The sheet material can include a heat seal layer, with the heat seal layer overlying, and in surface-to-surface contact with, the foam layer such that the foam layer is between the paperboard and the heat seal layer. Preferred composition for the foam layer is PVDC or AMM.
대표청구항▼
The invention claimed is: 1. A thermally insulating beverage or food container, comprising: (a) a bottom wall; and (b) a side wall extending upwardly from the bottom wall, said side wall comprising (i) a substrate layer comprising paperboard, (ii) an expanded foam layer having a projected area and
The invention claimed is: 1. A thermally insulating beverage or food container, comprising: (a) a bottom wall; and (b) a side wall extending upwardly from the bottom wall, said side wall comprising (i) a substrate layer comprising paperboard, (ii) an expanded foam layer having a projected area and defining a remote surface thereof, remote from said paperboard substrate layer, the remote surface of said expanded foam layer being defined by intermingled peaks and valleys, the peaks of the remote surface representing about 25 percent to no more than about 65 percent of the projected area of the remote surface, and (iii) a heat seal layer comprising a polymeric film defining the inner surface of said beverage or food container, said expanded foam layer being disposed between said paperboard substrate layer and said heat seal layer such that said expanded foam layer is not exposed as a surface of said food or beverage container and said heat seal layer defining a barrier between said expanded foam layer and contents of said beverage or food container, said expanded foam layer being in contact with said paperboard substrate layer, said heat seal layer being affixed to the remote surface of said expanded foam layer only at and adjacent the peaks, whereby thermally insulating dead air space is defined between the remote surface and the heat seal layer at the valleys. 2. A thermally insulating food or beverage, comprising: (a) a bottom wall; and (b) a side wall extending upwardly from said bottom wall, said side wall comprising (i) a substrate layer comprising paperboard, and (ii) an expanded foam layer affixed to the substrate paperboard layer and (iii) a heat seal layer comprising a polymeric film defining the inner surface of said beverage and food container, said heat seal layer affixed to said expanded foam layer, and said expanded foam layer being disposed between said paperboard substrate layer and said heat seal layer such that said expanded foam layer is not exposed as a surface of said food or beverage container, said expanded foam comprises expanded products of polymeric microcapsules expanded in accord with an earlier-applied heating process, an interface between said substrate layer and said expanded foam layer includes a portion of said microcapsules in interstices of said paperboard of said substrate layer. 3. A thermally insulating food or beverage container, comprising: (a) a bottom wall; and (b) a side wall extending upwardly from said bottom wall, said side wall comprising (i) a substrate layer comprising paperboard, and (ii) an expanded foam layer comprising expanded products of polymeric microcapsules expanded in accord with an earlier-applied heating process, and affixed to the substrate paperboard layer, said expanded foam layer having been applied as a coating of heat expandable microcapsules on said paperboard substrate layer, said expanded foam layer having a portion of said microcapsules in interstices of said paperboard of said substrate layer, and (iii) a heat seal layer defining the inner surface of said beverage or food container said expanded foam layer being disposed between said paperboard substrate layer and said heat seal layer, said container, when containing a hot liquid at 100 degrees C. , having an outer surface temperature, at the outer surface, sufficiently cool that an average person can continuously hold such container without temperature-related discomfort. 4. A thermally insulating food or beverage container as in claim 1, said heat seal layer being affixed to said expanded foam layer. 5. A thermally insulating food or beverage container as in claim 1, said expanded foam layer having a thickness of about 60 microns to about 750 microns. 6. A thermally insulating food or beverage container as in claim 1, said expanded foam layer having a thickness of about 150 microns to about 500 microns and said container, when containing water at about 100 degrees C., having an outer surface temperature of no more than about 70 degrees C. 7. A thermally insulating food or beverage container as in claim 1, said expanded foam layer having a thickness of about 150 microns to about 500 microns and said container, when containing water at about 100 degrees C., having an outer surface temperature of no more than about 65 degrees C. 8. A thermally insulating food or beverage container as in claim 1, said expanded products of microcapsules comprising primary polymeric material selected from the group consisting of polyvinylidene chloride copolymer and acrylonitrile/methyl methacrylate copolymer. 9. A thermally insulating food or beverage container as in claim 1, said expanded foam layer having a realized bulk density of about 0.5 pcf to about 15 pcf. 10. A thermally insulating food or beverage container as in claim 1, wherein an interface between said substrate layer and said expanded foam layer includes a portion of said microcapsules in interstices of said paperboard of said substrate layer. 11. A thermally insulating food or beverage container, comprising: (a) a bottom wall; and (b) a side wall extending upwardly from said bottom wall, and having an outer surface and an inner surface, said side wall comprising (i) a substrate layer comprising paperboard, and (ii) an expanded foam layer comprising expanded products of a generally uniform mixture of polymeric microcapsules and binder, expanded in accord with an earlier-applied heating process, and affixed to the substrate layer, a portion of said microcapsules of said expanded foam layer being in interstices of said paperboard of said substrate layer, said expanded foam layer comprising about 60 weight percent to about 90 weight percent expanded microcapsules and about 40 weight percent to about 10 weight percent binder, and (iii) a heat seal layer defining the inner surface of said beverage or food container, said expanded foam layer being disposed between said paperboard substrate layer and said heat seal layer. 12. A thermally insulating food or beverage container as in claim 11, said heat seal layer being affixed to said expanded foam layer. 13. A thermally insulating food or beverage container as in claim 11, said expanded foam layer having a thickness of about 60 microns to about 750 microns. 14. A thermally insulating food or beverage container as in claim 11, said expanded foam layer having a thickness of about 150 microns to about 500 microns and said container, when containing water at about 100 degrees C., having an outer surface temperature of no more than about 70 degrees C. 15. A thermally insulating food or beverage container as in claim 11, said expanded foam layer having a thickness of about 150 microns to about 500 microns and said container, when containing water at about 100 degrees C., having an outer surface temperature of no more than about 65 degrees C. 16. A thermally insulating food or beverage container as in claim 11, said expanded products of microcapsules comprising primary polymeric material selected from the group consisting of polyvinylidene chloride copolymer and acrylonitrile/methyl methacrylate copolymer. 17. A thermally insulating food or beverage container as in claim 11, said expanded foam layer having a realized bulk density of about 0.5 pcf to about 15 pcf. 18. A thermally insulating food or beverage container as in claim 11, wherein an interface between said substrate layer and said expanded foam layer includes a portion of said microcapsules in interstices of said paperboard of said substrate layer. 19. A thermally insulating beverage or food container, comprising: (a) a bottom wall; and (b) a side wall extending upwardly from the bottom wall, said side wall comprising (i) a substrate layer comprising paperboard, (ii) an expanded foam layer having a projected area and defining a remote surface thereof, remote from said paperboard substrate layer, the remote surface of said expanded foam layer being defined by intermingled peaks and valleys, the peaks of the remote surface representing about 25 percent to no more than about 65 percent of the projected area of the remote surface, and (iii) a heat seal layer defining the inner surface of said beverage or food container, said expanded foam layer being disposed between said paperboard substrate layer and said heat seal layer, and said heat seal layer being affixed to the remote surface of said expanded foam layer only at and adjacent the peaks, whereby thermally insulating dead air space is defined between the remote surface and the heat seal layer at the valleys. 20. A thermally insulating food or beverage container, comprising: (a) a bottom wall; and (b) a side wall extending upwardly from said bottom wall, said side wall comprising (i) a substrate layer comprising paperboard, and (ii) a non-syntactic expanded foam layer comprising expanded products of polymeric microcapsules expanded in accord with an earlier-applied heating process, and affixed to the substrate paperboard layer, said expanded foam layer having been applied as a coating of heat expandable microcapsules on said paperboard substrate layer, and (iii) a heat seal layer defining the inner surface of said beverage and food container, said expanded foam layer being disposed between said paperboard substrate layer and said heat seal layer, wherein an interface between said substrate layer and said expanded foam layer includes a portion of said microcapsules in interstices of said paperboard of said substrate layer.
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이 특허에 인용된 특허 (19)
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Iioka Akira (Inzaimachi JPX), Method for producing a heat-insulating paper container from a paper coated or laminated with a thermoplastic synthetic r.
Bartkowiak, Artur; Balejko, Jerzy; Lisiecki, Slawomir; Chojnacka, Maria, Coatings for cellulosic material and methods of preparing and applying thereof.
Leser, Chris K.; Driskill, Philip A.; Wallace, Charles T.; Euler, John B.; Paladino, Jason J.; Maravich, Milan C.; Davis, Daniel O.; Mann, Jeffrey A.; Bowlds, Randy A., Insulated container.
Leser, Chris K; Wallace, Charles T; Driskill, Philip A; Euler, John B; Paladino, Jason J; Maravich, Milan C; Davis, Daniel O; Mann, Jeffrey A; Bowlds, Randy A, Insulated container with molded brim.
Leser, Chris K.; Wallace, Charles T.; Driskill, Philip A.; Euler, John B.; Paladino, Jason J.; Maravich, Milan C.; Davis, Daniel O.; Mann, Jeffrey A., Insulated sleeve for a cup.
Leser, Chris K; Wallace, Charles T; Driskill, Philip A; Euler, John B; Paladino, Jason J; Maravich, Milan C; Davis, Daniel O; Bowlds, Randy A; Mann, Jeffrey A, Insulative container.
Leser, Chris K; Wallace, Charles T; Driskill, Philip A; Euler, John B; Paladino, Jason J; Maravich, Milan C; Davis, Daniel O; Mann, Jeffrey A; Bowlds, Randy A., Insulative container.
Babinsky, Vladislav; Arenander, Sven Samuel; Newman, Dobridge Celeste; Babcock, Bruce W.; Hawes, David H., Packaging materials with enhanced thermal-insulating performance.
Leser, Chris K.; Driskill, Philip A.; Wallace, Charles T.; Euler, John B.; Paladino, Jason J.; Maravich, Milan C.; Davis, Daniel O.; Mann, Jeffrey A.; Bowlds, Randy A.; Contrada, Svetlana I., Polymeric material for an insulated container.
Leser, Chris K.; Driskill, Philip A.; Wallace, Charles T.; Euler, John B.; Paladino, Jason J.; Maravich, Milan C.; Davis, Daniel O.; Mann, Jeffrey A.; Bowlds, Randy A.; Contrada, Svetlana I., Polymeric material for an insulated container.
Leser, Chris K; Driskill, Philip A; Wallace, Charles T; Euler, John B; Paladino, Jason J; Maravich, Milan C; Davis, Daniel O; Mann, Jeffrey A; Bowlds, Randy A; Contrada, Svetlana I, Polymeric material for an insulated container.
Leser, Chris K; Driskill, Philip A; Wallace, Charles T; Euler, John B; Paladino, Jason J; Maravich, Milan C; Davis, Daniel O; Mann, Jeffrey A; Bowlds, Randy A; Contrada, Svetlana I, Polymeric material for an insulated container.
Leser, Chris K; Driskill, Philip A; Wallace, Charles T; Euler, John B; Paladino, Jason J; Maravich, Milan C; Davis, Daniel O; Mann, Jeffrey A; Bowlds, Randy A; Contrada, Svetlana I; Sun, David Dezhou, Polymeric material for an insulated container.
Leser, Chris K; Driskill, Philip A; Wallace, Charles T; Euler, John B; Paladino, Jason J; Maravich, Milan C; Davis, Daniel O; Mann, Jeffrey A; Bowlds, Randy A; Contrada, Svetlana I; Sun, David Dezhou, Polymeric material for an insulated container.
Leser, Chris K; Wallace, Charles T; Driskill, Philip A; Euler, John B; Paladino, Jason J; Maravich, Milan C; Davis, Daniel O; Mann, Jeffrey A; Bowlds, Randy A; Contrada, Svetlana, Process for forming an insulated container having artwork.
Leser, Chris K; Wallace, Charles T; Driskill, Philip A; Euler, John B; Paladino, Jason J; Maravich, Milan C; Davis, Daniel O; Mann, Jeffrey A; Bowlds, Randy A; Contrada, Svetlana I, Process for forming an insulated container having artwork.
Leser, Chris K; Wallace, Charles T; Driskill, Philip A; Euler, John B; Paladino, Jason J; Maravich, Milan C; Davis, Daniel O; Mann, Jeffrey A; Bowlds, Randy A; Contrada, Svetlana I, Process for forming an insulated container having artwork.
Leser, Chris K; Wallace, Charles T; Driskill, Philip A; Euler, John B; Paladino, Jason J; Maravich, Milan C; Davis, Daniel O; Mann, Jeffrey A; Bowlds, Randy A; Contrada, Svetlana I, Process for forming an insulated container having artwork.
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