The present invention relates to a container with a side wall of plastic encloses a container volume. Horizontally oriented grooves spaced vertically apart from one another are formed in the side wall, and the grooves include first grooves for stiffening the side wall. The first grooves have a first groove depth and are configured such that a projection protruding into the enclosed container volume is formed in the inner surface of the side wall. The grooves also include second grooves having a second groove depth. The first groove depth is greater than the second groove depth. The first and second grooves are arranged such that at least one second groove is in each case arranged in the vertical direction between two first grooves. The subvolumes enclosed by two horizontal planes, which are defined by two adjacent grooves, and the side wall are in each case identical.

A tamper evidence assembly is provided to seal contents within an interior of a container. The tamper evidence assembly includes a closure that threadably engages with a finish to seal contents within the container. A tamper evidence portion is coupled with the closure and the finish to provide a visual indication of loosening of the closure after installation on the finish by a manufacturer. One aspect of the tamper evidence portion comprises a tamper evidence strip that is adhered to the closure and to a bell of the container. The tamper evidence strip tears on both sides of the closure when the closure is twisted on the finish. Another aspect of the tamper evidence portion comprises a tamper evidence shrink-wrap that is collapsed around the closure and the finish of the container. The tamper evidence shrink-wrap includes a perforated strip that is configured to provide an easy-open feature for consumers.

The present application provides a container for a beverage filled in a hot fill process. The container may include a finish, a body section, and a base. The body section may include a number of support columns and a number of body panels. Each of the support columns may include a first raised mid-section extending into a first body panel and a second raised mid-section extending into a second body panel.

A hot-fill plastic container has a polygonal (e.g., hex-shape) sidewall portion and a plurality of panels in a sidewall portion that are configured to flex in response to an internal vacuum pressure. Further, in embodiments, the container may be suitable for hot filling while having a container weight that may be 20% to 30%, or even higher percentages, below current comparative conventional weights for a plastic container that is intended to hold an equivalent volume of contents. In embodiments, the panels may be configured, e.g., adjusted or tuned, to provide a desired (e.g., reduced or extended) shelf-life.

An aseptic filling bottle that can suppress buckling of its bottom portion even at the time of refrigerated storage. A bottom portion of the aseptic filling bottle includes a grounding portion to be placed in contact with a surface on which the bottle is put, a central portion that projects to an inner side of the bottle as its extends radially inwards from the grounding portion, a dome portion which projects to more inner side of the bottle than the central portion, and a receded groove portion that extends radially from the dome portion. A bottom inner side projection height of the central portion at a dome portion side circumferential edge thereof is set greater than a half of a height from the grounding portion to a border between the body portion and the bottom portion. The receded groove portion, at a position corresponding to the radial center position of the grounding portion, has a depth ranging from 5.0 mm to 10.0 mm.

A plastic container comprises an upper portion including a finish defining an opening into the container, a lower portion including a base defining a standing surface, a sidewall extending between the upper portion and the lower portion, the sidewall defining a longitudinal axis, and at least one substantially transversely-oriented pressure panel located in the lower portion. The pressure panel is movable between an outwardly-inclined position and an inwardly-inclined position to compensate for a change of pressure inside the container. The standing surface defines a standing plane, and the entire pressure panel is located between the standing plane and the upper portion of the container when the pressure panel is in the outwardly-inclined position.

Container having a body portion with sidewall defining outer perimeter and hollow interior. The body portion includes a plurality of continuous ribs extending about the outer perimeter of the sidewall, each rib having alternating horizontal segments and branched segments. Each branched segment includes a top branch and bottom branch joined at either end to define a bounded area therebetween. The plurality of continuous ribs includes at least a first continuous rib and second continuous rib spaced vertically from the first continuous rib. A midpoint of each branched segment of the first continuous rib is aligned along a vertical axis with a midpoint of a corresponding horizontal segment of the second continuous rib, and a midpoint of each horizontal segment of the first continuous rib is aligned along a vertical axis with a midpoint of a corresponding branched segment of the second continuous rib.

A container defining a longitudinal axis and a transverse direction that is transverse with respect to the longitudinal axis. The container includes a finish and a sidewall portion extending from the finish. A plurality of ribs are defined by the sidewall. A base portion extends from the sidewall portion and encloses the sidewall portion to form a volume therein for retaining a commodity. The base portion has a contact surface for supporting the container. A plurality of straps extend radially along the base portion away from the longitudinal axis in the transverse direction, each one of the straps defines a strap surface that is closer to the finish than the contact surface. The plurality of ribs and the base portion are configured to place the container in a state of hydraulic charge-up when top load is applied to the container after the container is filled.

A container including an opening defined by a finish portion, and a base at an end of the container opposite to the opening. The base includes a standing ring extending inward from a heal to a center pushup portion. The center pushup portion includes an pushup ring surrounding an inversion portion. In an as-blown position the inversion portion extends outward and beyond the pushup ring such that the inversion portion is further from the opening than the pushup ring. In a final position the inversion portion is inverted relative to the as-blown position such that the inversion portion extends inward so as to be closer to the opening than the pushup ring. The inversion portion is mechanically moved from the as-blown position to the filled position with an inversion device after the container has been filled to reduce vacuum or increase pressure within the container.

A resin made container includes a spout portion to/from which a cap can be attached/detached, a shoulder portion continuous with the spout portion, a body portion continuous with the shoulder portion and a bottom portion continuous with the body portion and disposed at a lowermost part. A decompression absorption portion provided in form of a recess in the body portion includes a bulging area protruding to the outer side of the container.