IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0851083
(2004-05-24)
|
등록번호 |
US-7543713
(2009-07-01)
|
발명자
/ 주소 |
- Trude, Greg
- Tobias, John W.
- Ogg, Richard K.
|
출원인 / 주소 |
- Graham Packaging Company L.P.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
57 인용 특허 :
103 |
초록
▼
A container can have a body with an integrally formed base attached to the body. The base includes a concave annular wall extending from the container sidewall to a standing surface, and an inner wall extending from the standing surface to a substantially flat inner annular wall. The inner annular w
A container can have a body with an integrally formed base attached to the body. The base includes a concave annular wall extending from the container sidewall to a standing surface, and an inner wall extending from the standing surface to a substantially flat inner annular wall. The inner annular wall is recessed in the base and is substantially perpendicular to the container sidewall. The inner annular wall includes a centrally located dimple. The dimple includes a plurality of spaced apart and radially extending indented ribs. One or more of the ribs extend radially into a brace that tapers to meet the inner annular wall.
대표청구항
▼
What is claimed is: 1. A container comprising a body having an integrally formed base attached thereto, said base comprising: a concave annular wall extending from a sidewall of the container to a standing surface; an inner wall extending from the standing surface to an inner annular wall that is s
What is claimed is: 1. A container comprising a body having an integrally formed base attached thereto, said base comprising: a concave annular wall extending from a sidewall of the container to a standing surface; an inner wall extending from the standing surface to an inner annular wall that is substantially perpendicular to the sidewall; and a dimple centrally located within said inner annular wall and comprising a plurality of spaced apart radially extending indented ribs, each of said ribs comprising a brace extending radially from said dimple and tapering toward said inner annular wall, the tapering braces each including a wide portion and a narrow portion narrower than the wide portion, the wide portion being arranged at a junction with the inner annular wall, wherein the tapering braces are oriented substantially vertically and indented away from the dimple into an interior of the container, wherein the container further comprises a blow molded plastic material, wherein said inner annular wall of said base has a position to which it flexes upwardly and has another position to which it flexes downwardly in response to variations in pressures within the container, when filled and capped, without undergoing unwanted permanent deformation. 2. The container of claim 1, wherein, in as-formed condition, the base includes a flexible portion having an as-formed position inclined inwardly and upwardly in the range of five to six degrees with respect to a horizontal plane defined by a standing ring, the flexible portion adapted (a) to move down below the as-formed position in response to pressure created in the container after filling, and (b) to move up above the as-formed position in response to pressure created in the container after sealing, capping, and cooling. 3. The container of claim 2, wherein the flexible portion is substantially planar. 4. A container comprising a body having an integrally formed base attached thereto, said base comprising: a concave annular wall extending from a sidewall of the container to a standing surface; an inner wall extending from the standing surface to an inner annular wall that is substantially perpendicular to the sidewall; and a dimple centrally located within said inner annular wall and comprising a plurality of spaced apart radially extending indented ribs, each of said ribs comprising a brace extending radially from said dimple and tapering toward said inner annular wall, the tapering braces each including a wide portion and a narrow portion narrower than the wide portion, the wide portion being arranged at a junction with the inner annular wall, wherein the container further comprises a blow molded plastic material and wherein a degree of crystallinity of the plastic material in the base is greater than a degree of crystallinity of the plastic material in the sidewall. 5. The container of claim 4, wherein the degree crystallinity in the base is greater than 20%. 6. The container of claim 4, wherein the degree of crystallinity in the base is less than 30%. 7. The container of claim 4, wherein each said brace is trapezoidal, with a wider base toward the standing surface and a narrower top further from the standing surface. 8. The container of claim 4, wherein, in as-formed condition, the base includes a flexible portion having an as-formed position inclined inwardly and upwardly in the range of five to six degrees with respect to a horizontal plane defined by a standing ring, the flexible portion adapted (a) to move down below the as-formed position in response to pressure created in the container after filling, and (b) to move up above the as-formed position in response to pressure created in the container after sealing, capping, and cooling. 9. The container of claim 8, wherein the flexible portion is substantially planar. 10. A container comprising a body having an integrally formed base attached thereto, said base comprising: a concave annular wall extending from a sidewall of the container to a standing surface; an inner wall extending from the standing surface to an inner annular wall that is substantially perpendicular to the sidewall; and a dimple centrally located within said inner annular wall and comprising a plurality of spaced apart radially extending indented ribs, each of said ribs comprising a brace extending radially from said dimple and tapering toward said inner annular wall, the tapering braces each including a wide portion and a narrow portion narrower than the wide portion, the wide portion being arranged at a junction with the inner annular wall, wherein said inner annular wall of said base has a position to which it flexes upwardly and has another position to which it flexes downwardly in response to variations in pressures within the container, when filled and capped, without undergoing unwanted permanent deformation. 11. The container of claim 10, wherein each brace is in the shape of a trapezoid, the trapezoid having a wider base toward the standing surface and a narrower top further from the standing surface. 12. The container of claim 10, wherein the inner annular wall is adapted to compensate for internal vacuum created within the container after the container is hot-filled, capped, and cooled. 13. The container of claim 10, wherein each rib is in the shape of a trapezoid, with a wider base toward the standing surface and a narrower top further from the standing surface. 14. The container of claim 10, wherein, in as-formed condition, the base includes a flexible portion having an as-formed position inclined inwardly and upwardly in the range of five to six degrees with respect to a horizontal plane defined by a standing ring, the flexible portion adapted (a) to move down below the as-formed position in response to pressure created in the container after filling, and (b) to move up above the as-formed position in response to pressure created in the container after sealing, capping, and cooling. 15. The container of claim 14, wherein the flexible portion is substantially planar.
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