A plastic container including an upper portion, a base, a plurality of surface features, and a substantially cylindrical portion. The upper portion has a mouth defining an opening into the container. The base is movable to accommodate vacuum forces generated within the container thereby decreasing t
A plastic container including an upper portion, a base, a plurality of surface features, and a substantially cylindrical portion. The upper portion has a mouth defining an opening into the container. The base is movable to accommodate vacuum forces generated within the container thereby decreasing the volume of the container. The plurality of surface features are included with the base and are configured to accommodate vacuum forces. The substantially cylindrical portion extends between the upper portion and the base.
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1. A plastic container comprising: an upper portion having a mouth defining an opening into the container;a base movable to accommodate vacuum forces generated within the container thereby decreasing the volume of the container, the base including: a contact ring that supports the base upright, an u
1. A plastic container comprising: an upper portion having a mouth defining an opening into the container;a base movable to accommodate vacuum forces generated within the container thereby decreasing the volume of the container, the base including: a contact ring that supports the base upright, an upstanding circumferential wall extending from the contact ring towards the upper portion, a central push-up portion at an axial center of the base, and an inversion ring extending between the upstanding circumferential wall and the central push-up portion;wherein the inversion ring is flexible and configured to: move away from the upper portion upon filling of the container; and move towards the upper portion due to vacuum forces within the container upon capping, sealing, and cooling the container, thereby moving the inversion ring from a convex shape relative to an exterior of the base to a generally straight shape;a plurality of triangular surface features included on the inversion ring configured to increase flexibility of the inversion ring in order to adsorb vacuum forces as the inversion ring moves towards the upper portion from the convex shape to the generally straight shape, the plurality of triangular surface features are confined to the inversion ring and spaced apart from the central push-up portion and the upstanding circumferential wall;wherein neighboring triangular features share a common sidewall; anda substantially cylindrical portion extending between the upper portion and the base. 2. The plastic container of claim 1, wherein the triangular surface features are configured to create a vacuum force curve having a generally constant slope. 3. The plastic container of claim 1, wherein the triangular surface features include equilateral triangular features. 4. The plastic container of claim 3, wherein about 50% of the base includes the equilateral triangular features. 5. The plastic container of claim 3, wherein the equilateral triangular features are formed from a mold including a plurality of peaks and troughs corresponding to the equilateral triangular features, the peaks are spaced apart and the troughs are recessed within the mold beneath the peaks at a blow mold ratio of about 3:1 width to depth. 6. The plastic container of claim 1, wherein the surface features include triangular features each having at least two sides with different lengths. 7. The plastic container of claim 1, wherein neighboring triangular features are adjacent to one another. 8. The plastic container of claim 1, wherein the triangular features protrude from the base. 9. The plastic container of claim 1, wherein a plurality of the triangular features include a height of about 3 mm. 10. The plastic container of claim 1, wherein the inversion ring has a radius of about 10 mm to about 30 mm. 11. A plastic container comprising: an upper portion having a mouth defining an opening into the container;a base movable to accommodate vacuum forces generated within the container thereby decreasing the volume of the container, the base including: a contact ring that supports the base upright, an upstanding circumferential wall extending from the contact ring towards the upper portion, a central push-up portion at an axial center of the base, and an inversion ring extending between the upstanding circumferential wall and the central push-up portion;wherein the inversion ring is flexible and configured to: move away from the upper portion upon filling of the container; and move towards the upper portion due to vacuum forces within the container upon capping, sealing, and cooling the container, thereby moving the inversion ring from a convex shape relative to an exterior of the base to a generally straight shape;a plurality of adjacent triangular features protruding from the inversion ring of the base configured to: move away from the upper portion upon filling of the container, and move towards the upper portion due to vacuum forces within the container upon capping, sealing, and cooling the container, thereby moving the container from the convex shape relative to the exterior of the base to the generally straight shape;wherein the plurality of triangular features include three sides and a center portion spaced apart from the three sides, the center portion extends further away from the upper portion than the three sides; anda substantially cylindrical portion extending between the upper portion and the base. 12. The plastic container of claim 1, wherein the triangular features include a plurality of equilateral triangles. 13. The plastic container of claim 11, wherein at least some of the triangular features have at least two sides with different lengths. 14. The plastic container of claim 11, wherein the triangular features have a height of about 3 mm. 15. The plastic container of claim 11, wherein the triangular features are included on the inversion ring of the base having a radius of from about 10 mm to about 30 mm. 16. The plastic container of claim 11, wherein about 50% of the base includes the triangular features. 17. The plastic container of claim 11, wherein the triangular features are formed from a mold including a plurality of peaks aligned along a common plane and troughs corresponding to the triangular features, the peaks are spaced apart and the troughs are recessed within the mold beneath the peaks at a blow mold ratio of about 3:1 width to depth. 18. The plastic container of claim 11, wherein the center portion is spaced apart equidistant from the three sides of the triangular features.
Patcheak, Terry D.; Downing, David; Lisch, G. David; Silvers, Kerry W.; Vailliencourt, Dwayne G.; Pieszchala, Brian L.; Steih, Richard J., Container base structure responsive to vacuum related forces.
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