A non-round base structure for a hot-fill plastic container provides the container with enhanced structural integrity. The base structure is roughly rectangular and is composed of a flexible vacuum absorbing area and a bearing edge which support the container in an upright position. The flexible vac
A non-round base structure for a hot-fill plastic container provides the container with enhanced structural integrity. The base structure is roughly rectangular and is composed of a flexible vacuum absorbing area and a bearing edge which support the container in an upright position. The flexible vacuum absorbing area abates with a central ellipse shaped push-up, which is a concave surface. A series of ribs with an outward facing rounded edges are fashioned on the concave surface. The ribs extend outwardly from the center of the ellipse. The disclosed base structure enables the container to withstand the various forces encountered in filling, cooling and handling.
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What is claimed is: 1. A non-round base structure for a blow-molded container having rectangular sidewalls, comprising: a support heel comprising a bearing edge and a flexible vacuum absorbing area having an outer portion and a roughly ellipsoidal inner portion, said outer portion merging with the
What is claimed is: 1. A non-round base structure for a blow-molded container having rectangular sidewalls, comprising: a support heel comprising a bearing edge and a flexible vacuum absorbing area having an outer portion and a roughly ellipsoidal inner portion, said outer portion merging with the container rectangular sidewalls and said inner portion merging with a central concave wall; the central concave wall having an apex and a plurality of ribs extending outward from the apex along the concave wall, each rib having a rounded edge extending outward from the interior of the container; and whereby the vacuum absorbing area and ribs cooperate to enhance the structural integrity of the container by rigidifying said central concave wall and by providing multiple paths of interengageable surfaces that make it difficult for deflection, once initiated, to propagate to undesired distortion. 2. The non-round base structure for a blow-molded container of claim 1, wherein the outer portion is roughly ellipsoidal. 3. The non-round base structure for a blow-molded container of claim 2, wherein the flexible vacuum absorbing area enhances the support bearing edge upon container filling. 4. The non-round base structure for a blow-molded container of claim 2, wherein the flexible area defines a cord length between the inner portion and the outer portion, and the cord length is no more than about 25% longer at its longest point than at its shortest point. 5. The base structure according to claim 1, wherein the ribs form a substantially symmetric array. 6. The base structure according to claim 5, wherein the array is substantially star-shaped. 7. The base structure according to claim 1, wherein there are at least about six ribs. 8. The base structure of claim 1, wherein the vacuum flexible area partially surrounds the area defined by the concave wall. 9. The base structure of claim 8, wherein the vacuum flexible area is separated into two roughly symmetrical areas by recessed structures on opposite sides of the concave wall. 10. A base structure according to claim 1, wherein said base structure comprises polyethylene terephthalate. 11. A non-round base structure for a blow-molded container having rectangular sidewalls, comprising: a support heel comprising a bearing edge and a flexible vacuum absorbing area having a roughly rectangular outer portion and a roughly ellipsoidal inner portion, said outer portion merging with the container rectangular sidewalls and said inner portion merging with a central concave wall; the central concave wall having an apex and a plurality of ribs extending outward from the apex along the concave wall, each rib having a rounded edge extending outward from the interior of the container; and whereby the vacuum absorbing area and ribs cooperate to enhance the structural integrity of the container by rigidifying said central concave wall and by providing multiple paths of interengageable surfaces that make it difficult for deflection, once initiated, to propagate to undesired distortion. 12. The non-round base structure for a blow-molded container of claim 11, wherein the flexible vacuum absorbing area enhances the support bearing edge upon container filling. 13. The non-round base structure for a blow-molded container of claim 11, wherein the flexible area defines a cord length between the inner portion and the outer portion, and the cord length is no more than about 25% longer at its longest point than at its shortest point. 14. The base structure according to claim 11, wherein the ribs form a substantially star-shaped, symmetric array. 15. The base structure of claim 11, wherein the vacuum flexible area partially surrounds the area defined by the concave wall. 16. The base structure of claim 15, wherein the vacuum flexible area is separated into two roughly symmetrical areas by recessed structures on opposite sides of the concave wall. 17. A base structure according to claim 11, wherein said base structure comprises polyethylene terephthalate. 18. A non-round base structure for a blow-molded container having rectangular sidewalls, comprising: a support heel comprising a bearing edge and a flexible vacuum absorbing area having a roughly ellipsoidal outer portion and a roughly ellipsoidal inner portion, said outer portion merging with the container rectangular sidewalls and said inner portion merging with a central concave wall, wherein the flexible vacuum absorbing area is adapted to enhance the support bearing edge upon container filling and defines a cord length between the inner portion and the outer portion that is no more than about 25% longer at its longest point than at its shortest point; the central concave wall having an apex and a plurality of ribs extending outward from the apex along the concave wall to form a substantially star-shaped symmetric array, each rib having a rounded edge extending outward from the interior of the container; and whereby the vacuum absorbing area and ribs cooperate to enhance the structural integrity of the container by rigidifying said central concave wall and by providing multiple paths of interengageable surfaces that make it difficult for deflection, once initiated, to propagate to undesired distortion.
Krishnakumar ; Suppayan M. ; Roy ; Siegfried S. ; Pocock ; John F. E. ; Das ; Salil K. ; Mahajan ; Gautam K., Ribbed bottom structure for plastic container.
Nakayama, Tadayori; Saito, Hiromichi; Iizuka, Takao, Bottle made from synthetic resin material and formed in a cylindrical shape having a bottom portion.
Wurster, Michael P.; Bysick, Scott E., Plastic containers having base configurations with up-stand walls having a plurality of rings, and systems, methods, and base molds thereof.
Wurster, Michael P.; Bysick, Scott E., Plastic containers having base configurations with up-stand walls having a plurality of rings, and systems, methods, and base molds thereof.
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