The present disclosure provides a flexible container. In an embodiment, the flexible container includes (A) a front panel, a rear panel, a first gusseted side panel, and a second gusseted side panel. The gusseted side panels adjoin the front panel and the rear panel along peripheral seals to form a chamber. Each peripheral seal has (i) a body seal inner edge (BSIE) with opposing ends, (ii) a top tapered seal inner edge (t-TSIE) extending from a top end of each BSIE, (iii) a neck seal inner edge (NSIE) extending from a top end of each t-TSIE, (iv) a neck arc extending between each NSIE and t-TSIE, and (v) a plane (N) extending through each neck arc. Each NSIE forms a neck angle with the plane (N), and the neck angle is from 45° to less than 90°.

There is shown a bottle having a plurality of shoulder faceted sections and a plurality of bottom faceted section defined into the shoulder and lower well of the bottle respectively. A triangulated cylinder formed into the bottle and defined by having pairs of triangles with a shared hypotenuse forming polygons around the triangulated cylinder and in a number of rows between the shoulder and lower well of the bottle. The body thereby being compressible and expandable.

A souvenir air bottle assembly for storing air from a geographic location as a souvenir includes a bottle that is comprised of a fluid impermeable material to contain air. The bottle is comprised of a resiliently deformable material thereby facilitating the bottle to be collapsed. Moreover, the bottle is biased into an expanded position to draw air inwardly therein when the bottle is collapsed and subsequently released. A cap is removably attachable to the bottle to retain the air in the bottle.

A container of plastic material is produced using the blow, fill and seal method, with the filler material, enclosed by a container wall (15, 20) that can be autoclaved. At least one shape (19, 21, 23, 25, 29, 33) is provided in the container wall (15, 20) that ensures, despite a low relative air volume in the container, that when administering the filler material by infusion, the container wall (15, 20) collapses at least partially reducing the volume, without aeration of the container.

A container includes a bottom wall and a side wall. Multiple vertically-crushable units are formed in the side wall, each unit of the multiple units includes mountain fold lines formed by sides of parallelograms and valley fold lines formed by diagonal lines of the parallelograms, and the multiple units are stacked in tiers such that each pair of the parallelograms in upper and lower tiers have a common lower/upper side and the parallelograms in the upper and lower tiers alternately become line-symmetrical with respect to the common lower/upper side.

A synthetic resin container includes a mouth portion and body, the body being squeezed to discharge contents. The body has a flattened shape with a width larger than a thickness. An end on one side in an axial direction along a center axis line of the body is connected to the mouth portion, and an end on another side is closed and formed in a curved shape protruding toward the other side in the axial direction. Each widthwise ends of the body is provided with a bent portion extending in parallel with the axial direction. When the body is squeezed in the thickness direction to discharge the contents, the bent portion is configured to be a starting point when one of a front side wall and a rear side wall opposed to each other in the thickness direction of the body is inverted and deformed toward the other.

A bottle including a finish defining a bottle opening, a collapsible assembly carrying the finish, the collapsible assembly including a first groove coupled to a second groove by a connecting portion, a bell coupled to the collapsible portion, a base, a central axis extending from the finish to the base, and a sidewall extending between the bell and the base. The collapsible assembly is configured to actuate along the central axis between a first extended position and a second depressed position, in the first extended position the first groove is positioned further away from the base than the second groove, and in the second depressed position the first groove is positioned closer to the base than the second groove.

A stackable plastic container includes a base with a recessed portion; a sidewall portion; a shoulder; and a spout configured to dispense contents. The shoulder and spout may be configured to move downwardly in a vertical direction toward the base. In embodiments, the recessed portion may be configured to receive or cover at least a portion of a spout of an identical container. In embodiments, one or more containers in a retracted configuration may be stacked.

A container (100) includes a body (110) having an upper end (104) and a lower end (106). The upper end has an opening formed therethrough. The body defines a plurality of ribs (110) between the upper end and the lower end that are configured to actuate between an expanded state and a compressed state to vary a volume inside the body. A sleeve (500) is positioned at least partially around the body. The sleeve inhibits one or more of the plurality of ribs that are in the compressed state from actuating into the expanded state.

A method of manufacturing a liquid container in which a liquid is stored in a storage space of the container including a mouth, a body and a bottom, the body having a lateral folding line portion being foldable when the body is flattened in a thickness direction and extending in a circumferential direction of the body, the method including a liquid blow molding step of molding a container filled full with a liquid in a storage space by placing a preform in a mold and performing liquid blow molding; and a headspace forming step of forming a headspace in which, by separating the container filled with a liquid from the container, the body is deformed in a direction in which a thickness is increased in an area of the lateral folding line portion and a volume of the storage space is increased.