IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0104893
(2008-04-17)
|
등록번호 |
US-8286814
(2012-10-16)
|
발명자
/ 주소 |
- Pritchett, Jr., Raymond A.
|
출원인 / 주소 |
- Graham Packaging Company, L.P.
|
대리인 / 주소 |
The Patentwise Group, LLC
|
인용정보 |
피인용 횟수 :
5 인용 특허 :
14 |
초록
▼
A volumetrically efficient plastic hot fill container at least one vacuum panel defined by a vacuum panel area of a sidewall that is constructed and arranged to flex inwardly in order to accommodate volumetric shrinkage that may occur within the container as a result of the conventionally known hot
A volumetrically efficient plastic hot fill container at least one vacuum panel defined by a vacuum panel area of a sidewall that is constructed and arranged to flex inwardly in order to accommodate volumetric shrinkage that may occur within the container as a result of the conventionally known hot fill process. Advantageously, at least a portion of the vacuum panel area of the sidewall is formed as a plurality of undulations. The undulations preferably have a vertical component and provide an increased surface area to the vacuum panel area relative to what a flat surface would provide. As a result, the amount of volumetric shrinkage that may be accommodated through inward deflection of said vacuum panel area of said sidewall is increased relative to a flat surface would provide.
대표청구항
▼
1. A plastic hot fill container, comprising: a sidewall having at least one vacuum panel defined therein, said at least one vacuum panel being defined by a vacuum panel of said sidewall that is constructed and arranged to flex inwardly in order to accommodate volumetric shrinkage that may occur with
1. A plastic hot fill container, comprising: a sidewall having at least one vacuum panel defined therein, said at least one vacuum panel being defined by a vacuum panel of said sidewall that is constructed and arranged to flex inwardly in order to accommodate volumetric shrinkage that may occur within the container as a result of the hot fill process, and whereinat least a portion of said vacuum panel of said sidewall is formed as a plurality of undulations, said undulations having a vertical component and providing an increased surface area of said vacuum panel of said sidewall relative to what a flat surface would provide, wherein the amount of volumetric shrinkage that may be accommodated through inward deflection of said vacuum panel of said sidewall is increased relative to what a flat surface would provide. 2. A plastic hot fill container according to claim 1, wherein said sidewall has a plurality of said vacuum panels defined therein, and wherein each of said vacuum panels has a plurality of undulations defined therein. 3. A plastic hot fill container according to claim 1, wherein at least one of said undulations extends substantially from a first edge of said vacuum panel to a second edge of said vacuum panel. 4. A plastic hot fill container according to claim 1, wherein said undulations extend along an axis that is substantially vertical. 5. A plastic hot fill container according to claim 1, wherein said undulations are substantially parallel to each other. 6. A plastic hot fill container according to claim 1, wherein said vacuum panel of said sidewall has a substantially constant wall thickness. 7. A plastic hot fill container according to claim 1, wherein at least one of said undulations extends along a longitudinal axis for a distance of at least 0.75 inches. 8. A plastic hot fill container according to claim 7, wherein said at least one of said undulations extends along a longitudinal axis for a distance of at least 1 inch. 9. A plastic hot fill container according to claim 8, wherein said at least one of said undulations extends along a longitudinal axis for a distance of at least 1.5 inches. 10. A plastic hot fill container according to claim 1, wherein said sidewall has a maximum outer diameter, and wherein at least one of said undulations extends along a longitudinal axis for a distance that is at least 20% of said maximum outer diameter. 11. A plastic hot fill container according to claim 10, wherein said at least one undulation extends along a longitudinal axis for a distance that is at least 30% of said maximum outer diameter. 12. A plastic hot fill container according to claim 11, wherein said at least one undulation extends along a longitudinal axis for a distance that is at least 40% of said maximum outer diameter. 13. A plastic hot fill container according to claim 1, wherein said undulations are substantially sinusoidal in cross-section, having an amplitude and a wavelength. 14. A plastic hot fill container according to claim 13, wherein said amplitude is less than about 25% of said wavelength. 15. A plastic hot fill container according to claim 14, wherein said amplitude is less than about 20% of said wavelength. 16. A method of designing a volumetrically efficient hot fill container, comprising: modifying a conventional hot fill container design by designing a vacuum panel for a volumetrically efficient hot fill container in which a sidewall of the volumetrically efficient hot fill container is formed as a plurality of undulations, said undulations having a vertical component and providing an increased surface area of said vacuum panel of said sidewall relative to what a flat surface would provide, wherein the amount of volumetric shrinkage that may be accommodated through inward deflection of said vacuum panel of said sidewall is increased relative to what a flat surface would provide; andreducing an amount of plastic material to be used in the formation of said volumetrically efficient hot fill container relative to an amount of plastic material that was used to form said conventional hot fill container. 17. A method comprising manufacturing a volumetrically efficient hot fill container that has been designed according to claim 16. 18. A method of designing a volumetrically efficient hot fill container according to claim 16, wherein said sidewall has a plurality of said vacuum panels defined therein, and wherein each of said vacuum panels has a plurality of undulations defined therein. 19. A method of designing a volumetrically efficient hot fill container according to claim 16, wherein at least one of said undulations extends substantially from a first edge of said vacuum panel to a second edge of said vacuum panel area. 20. A method of designing a volumetrically efficient hot fill container according to claim 16, wherein said undulations extend along an axis that is substantially vertical. 21. A method of designing a volumetrically efficient hot fill container according to claim 16, wherein said undulations are substantially parallel to each other. 22. A method of designing a volumetrically efficient hot fill container according to claim 16, wherein said vacuum panel of said sidewall has a substantially constant wall thickness. 23. A method of designing a volumetrically efficient hot fill container according to claim 16, wherein at least one of said undulations extends along a longitudinal axis for a distance of at least 0.75 inches. 24. A method of designing a volumetrically efficient hot fill container according to claim 23, wherein said at least one of said undulations extends along a longitudinal axis for a distance of at least 1 inch. 25. A method of designing a volumetrically efficient hot fill container according to claim 24, wherein said at least one of said undulations extends along a longitudinal axis for a distance of at least 1.5 inches. 26. A method of designing a volumetrically efficient hot fill container according to claim 16, wherein said sidewall has a maximum outer diameter, and wherein at least one of said undulations extends along a longitudinal axis for a distance that is at least 20% of said maximum outer diameter. 27. A method of designing a volumetrically efficient hot fill container according to claim 26, wherein said at least one undulation extends along a longitudinal axis for a distance that is at least 30% of said maximum outer diameter. 28. A method of designing a volumetrically efficient hot fill container according to claim 27, wherein said at least one undulation extends along a longitudinal axis for a distance that is at least 40% of said maximum outer diameter. 29. A method of designing a volumetrically efficient hot fill container according to claim 16, wherein said undulations are substantially sinusoidal in cross-section, having an amplitude and a wavelength. 30. A method of designing a volumetrically efficient hot fill container according to claim 29, wherein said amplitude is less than about 25% of said wavelength. 31. A method of designing a volumetrically efficient hot fill container according to claim 30, wherein said amplitude is less than about 20% of said wavelength.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.