US2021221593A1PendingUtilityA1
Vacuum absorbing bases for hot-fill containers
Assignee: AMCOR RIGID PLASTICS USA LLCPriority: Jun 30, 2016Filed: Jun 29, 2017Published: Jul 22, 2021
Est. expiryJun 30, 2036(~10 yrs left)· nominal 20-yr term from priority
B65D 79/0081B65D 1/0276B65D 2501/0036
46
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Claims
Abstract
A polymeric container including an upper portion defining an opening to an interior volume of the container. A base is movable to accommodate vacuum forces generated within the container, thereby decreasing the volume of the container. A substantially cylindrical sidewall extends between the upper portion and the base. A rigid, central pushup portion of the base is at an axial center of the base. A central longitudinal axis of the container extends through a center of the central pushup portion. A flexible diaphragm of the base extends outward from the central pushup portion.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1 . A polymeric container comprising:
an upper portion defining an opening to an interior volume of the container; a base movable to accommodate vacuum forces generated within the container thereby decreasing the volume of the container; a substantially cylindrical sidewall extending between the upper portion and the base; a rigid, central pushup portion of the base at an axial center of the base, a central longitudinal axis of the container extends through a center of the central pushup portion; a flexible diaphragm of the base extending outward from the central pushup portion; and a side surface of the central pushup portion extending outward and away from the longitudinal axis of the container to the flexible diaphragm at a draft angle of 30° to 35° relative to the longitudinal axis.
2 . The polymeric container of claim 1 , wherein the draft angle is about 33°.
3 . The polymeric container of claim 1 , wherein the base is molded at a temperature of 170° F. to 200° F.
4 . The polymeric container of claim 1 , wherein the flexible diaphragm is curved convex relative to an outer surface of the base.
5 . The polymeric container of claim 1 , wherein the side surface of the central pushup portion transitions to the flexible diaphragm halfway between the central longitudinal axis of the container and an outer diameter of the container.
6 . The polymeric container of claim 1 , wherein the side surface of the central pushup portion transitions to the flexible diaphragm at a lowermost portion of the base that is furthest from the upper portion of the container.
7 . The polymeric container of claim 6 , wherein the lowermost portion is halfway between the central longitudinal axis of the container and an outer diameter of the container.
8 . The polymeric container of claim 1 , wherein the lowermost portion of the base is configured such that when the polymeric container is seated on a planar support surface, the lowermost portion is spaced apart from the planar support surface by about 0.07 inches to about 0.09 inches.
9 . The polymeric container of claim 1 , wherein the lowermost portion of the base is configured such that when the polymeric container is seated on a planar support surface, the lowermost portion of the base is spaced apart from the planar support surface by about 0.08 inches.
10 . The polymeric container of claim 1 , wherein the flexible diaphragm has an actual surface area that is about 20% to about 25% greater than an actual surface area of the rigid central pushup portion.
11 . The polymeric container of claim 1 , wherein the flexible diaphragm has an actual surface area that is 23% greater than an actual surface area of the rigid central pushup portion.
12 . The polymeric container of claim 1 , wherein the flexible diaphragm includes a plurality of surface features configured to facilitate flexion of the flexible diaphragm in response to vacuum forces within the container.
13 . The polymeric container of claim 12 , wherein the surface features are configured as at least one of circular dimples and triangles.
14 . The polymeric container of claim 13 , wherein the surface features are arranged in columns extending radially away from the longitudinal axis of the container; and
wherein the base further includes base ribs extending radially away from the longitudinal axis, at least one base rib is arranged between two neighboring columns of surface features.
15 . The polymeric container of claim 1 , wherein the side surface of the central pushup portion is circular and surrounds the longitudinal axis.
16 . The polymeric container of claim 1 , wherein the side surface of the central pushup portion includes a plurality of center ribs.
17 . The polymeric container of claim 1 , wherein the base has a width to depth ratio of 0.28 to 0.36.
18 . The polymeric container of claim 17 , wherein the base has a width of about 0.96 inches and a depth of about 0.31 inches.
19 . A polymeric container comprising:
an upper portion defining an opening to an interior volume of the container; a base movable to accommodate vacuum forces generated within the container thereby decreasing the volume of the container; a substantially cylindrical sidewall extending between the upper portion and the base; a rigid, central pushup portion of the base at an axial center of the base, a central longitudinal axis of the container extends through a center of the central pushup portion; and a flexible diaphragm of the base extending outward from the central pushup portion; wherein the flexible diaphragm has an actual surface area that is about 20% to about 25% greater than an actual surface area of the rigid central pushup portion.
20 . The polymeric container of claim 19 , wherein the actual surface area of the flexible diaphragm is about 23% greater than the actual surface area of the rigid central pushup portion.
21 . The polymeric container of claim 19 , further comprising:
a side surface of the central pushup portion extending outward and away from the longitudinal axis of the container to the flexible diaphragm at a draft angle relative to the longitudinal axis that is greater than 30° and less than 35°.
22 . The polymeric container of claim 19 , wherein the flexible diaphragm is curved convex relative to an outer surface of the base.
23 . The polymeric container of claim 19 , wherein the side surface of the central pushup portion transitions to the flexible diaphragm halfway between the central longitudinal axis of the container and an outer diameter of the container.
24 . The polymeric container of claim 19 , wherein the side surface of the central pushup portion transitions to the flexible diaphragm at a lowermost portion of the base that is furthest from the upper portion of the container.
25 . The polymeric container of claim 24 , wherein the lowermost portion is halfway between the central longitudinal axis of the container and an outer diameter of the container.
26 . The polymeric container of claim 24 , wherein the lowermost portion of the base is configured such that when the polymeric container is seated on a planar support surface, the lowermost portion is spaced apart from the planar support surface by about 0.07 inches to about 0.09 inches.
27 . The polymeric container of claim 19 , wherein the flexible diaphragm includes a plurality of surface features configured to facilitate flexion of the flexible diaphragm in response to vacuum forces within the container.
28 . The polymeric container of claim 19 , wherein the rigid, central push-up portion includes a plurality of center ribs.
29 . The polymeric container of claim 19 , wherein the base has a width to depth ratio of 0.28 to 0.36.
30 . The polymeric container of claim 19 , wherein the base has a width of about 0.96 inches and a depth of about 0.31 inches.
31 . A polymeric container comprising:
an upper portion defining an opening to an interior volume of the container; a base movable to accommodate vacuum forces generated within the container thereby decreasing the volume of the container; a substantially cylindrical sidewall extending between the upper portion and the base; a rigid, central pushup portion of the base at an axial center of the base, a central longitudinal axis of the container extends through a center of the central pushup portion; and a flexible diaphragm of the base extending outward from the central pushup portion; wherein the central pushup portion transitions to the flexible diaphragm halfway between the central longitudinal axis of the container and an outer diameter of the container.
32 . The polymeric container of claim 31 , wherein the central pushup portion transitions to the flexible diaphragm at a lowermost portion of the base that is furthest from the upper portion of the container.
33 . The polymeric container of claim 32 , wherein the lowermost portion is halfway between the central longitudinal axis of the container and an outer diameter of the container.
34 . The polymeric container of claim 32 , wherein the lowermost portion of the base is configured such that when the polymeric container is seated on a planar support surface, the lowermost portion is spaced apart from the planar support surface by about 0.07 inches to about 0.09 inches.
35 . The polymeric container of claim 31 , further comprising:
a side surface of the central pushup portion extending outward and away from the longitudinal axis of the container to the flexible diaphragm at a draft angle of greater than 30° and less than 35° relative to the longitudinal axis.
36 . The polymeric container of claim 31 , wherein the flexible diaphragm is curved convex relative to an outer surface of the base.
37 . The polymeric container of claim 31 , wherein the flexible diaphragm has an actual surface area that is 23% greater than an actual surface area of the rigid central pushup portion.
38 . The polymeric container of claim 31 , wherein the flexible diaphragm includes a plurality of surface features configured to facilitate flexion of the flexible diaphragm in response to vacuum forces within the container.
39 . The polymeric container of claim 31 , wherein the rigid, central push-up portion includes a plurality of center ribs.
40 . The polymeric container of claim 31 , wherein the base has a width to depth ratio of 0.28 to 0.36.
41 . The polymeric container of claim 31 , wherein the base has a width of about 0.96 inches and a depth of about 0.31 inches.Join the waitlist — get patent alerts
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