Container includes a top portion, a body portion and a bottom portion. The body portion includes a front wall, a rear wall and first and second side walls, the first side wall disposed opposite the second side wall, opposing grip areas formed in the first and second side walls, a first circumferential rib disposed above the opposing grip areas and extending horizontally about an entire outer circumferential perimeter of the body portion, a second circumferential rib disposed below the opposing grip areas and extending horizontally about the entire outer circumferential perimeter of the body portion, at least one horizontal body rib disposed between and spaced circumferentially from the opposing grip areas, a first vertical strut formed in the first side wall and a second vertical strut formed in the second side wall, each strut disposed between the first and second circumferential ribs and spaced a distance from each grip area.

A hot fill plastic container has a dome portion with a convex outer surface that defines a maximum outer diameter of the container so as to extend outwardly beyond a main body portion of the container. The generally egg-shaped dome portion enhances the crush resistance of the dome and provides a point of contact between containers when they are placed adjacent to one another. A circumferential stiffening groove may be provided near a lower end of the dome portion.

A synthetic resin bottle prevents a trunk from undergoing unsightly deformation in response to reduced pressure inside the bottle and also increases flexibility in terms of container design and secures a label attachment area sufficiently. A synthetic resin bottle includes a mouth, a trunk, and a bottom, with a reduced pressure absorbing region configured to be displaced toward the inside of the bottle in response to reduced pressure inside the bottle. The trunk includes a cylindrical-shaped straight region, which has a length of not less than 100 mm in an axis direction extending along a center axis of the trunk and in which no irregularities are provided. The straight region has a weight of not less than 11 times a weight of the reduced pressure absorbing region.

The invention relates to a container (100) for drinks suitable for hot filling and compressible so as to be able to draw the drink out by means of a pressure exerted on the side walls. The container comprises a central body (3) with vacuum compensation function which is created following the cooling of the fluid after the hot filling. Said central body comprises four trapezoidal-shaped panels (1) and is limited on the top and on the bottom by a set of ribs (6,7) and rings (8,9).

A synthetic resin container, including a mouth portion, a shoulder portion, a body portion and a bottom portion. The body portion is formed into an angular cylindrical shape and has one or more concave groove portions formed along a circumferential direction such that: a cross section shape of a site in which the concave groove portion is formed is similar to a cross section shape of a site formed into the body portion, and when the cross section shape of the site in which the concave groove portion is formed and the cross section shape of the site formed into the angular cylindrical shape of the body portion are superimposed, respective apexes of the cross section shape of the site in which the concave groove portion is formed internally contact respective sides of the cross section shape of the site formed into the angular cylindrical shape of the body portion.

A plastic container has a base portion adapted for vacuum absorption, the container including a base and a body extending up from the base along a central axis to a finish portion defining a mouth. The base includes an outside wall, a chime connecting the outside wall to an annular contact ring, an inside wall extending upward from the contact ring to a hinge, and a diaphragm connected to the hinge. The diaphragm can move between first and second positions in response to pressure change within the container. The diaphragm includes a central region and a flexible wall having a curved profile in cross section. The flexible wall curves downward from the hinge to the central region. In some embodiments, the flexible wall is asymmetric and includes a first portion having a curved profile and a second portion having a linear profile. A container wall structure is also disclosed.

A plastics material container for holding liquids, in particular beverages, having a bottom section, a main body adjoining the bottom section that forms a holding volume that extends in a longitudinal direction of the plastics material container, a shoulder region adjoining the main body in the longitudinal direction, in which a cross-section in the longitudinal direction is reduced and with a mouth region which adjoins the shoulder region in the longitudinal direction, in which a mouth is formed, via which a liquid can be supplied to the container, wherein the shoulder region and the mouth region are arranged in an upper section of the plastics material container in relation to the longitudinal direction. The container has a deformation section in the upper section and in the longitudinal direction below the mouth section, in which deformation section the plastics material container is elastically deformable with respect to its longitudinal direction.

A bottle having good mechanical properties and lightness due to its bottom design includes a bottom, a body, and a neck. The bottom has a dome, a coronal arch, an annular seat, a side wall, six main radial grooves, five secondary radial grooves situated between the main grooves, each having an end Ev in the arch, and a peripheral end Ep in the side wall. The bottom is such that the ratio Mf/Vuf, wherein Mf is the weight of the bottom and Vuf is the useful volume of the bottom, is less than or equal to 0.050 g/mL and the ratio ?.sup.do/H.sup.do, wherein ?.sup.do is the diameter of the dome at its base and H.sup.do is its apex height along an axis Z, is greater than or equal to 4.4. The invention also relates to a manufacturing method and a mold for the bottle.

A beverage container includes a base, a sidewall extending from and integrally formed with the base, and an upper region extending from the sidewall and defining an upper opening. The beverage container includes a longitudinal axis extending in a direction from the base to the upper opening. The beverage container further includes a continuous channel formed in and extending continuously around a circumference of the sidewall, wherein the continuous channel includes peaks and troughs connected by diagonal regions. The continuous channel is configured to resist paneling and elongation of the beverage container. The beverage container further includes a central channel formed in and extending continuously around a circumference of the sidewall at a central portion of the sidewall, wherein the central channel is configured to resist paneling of the beverage container.

A blow molded container is provided. The container includes a neck having a neck finish and a transverse rim that defines an opening. A closure is provided that is engageable with the neck such that the rim is movable relative to the neck to define one or more vents configured for passage of a gas. In some embodiments, methods of use and manufacturing containers are disclosed.