The present invention is a square bottle. In the square bottle, a body portion extending in a vertical direction is configured that a panel surface portion and a corner surface portion are disposed, a circumferential groove is formed at a center portion of the body portion in the vertical direction, a recessed portion for finger contact is disposed in a portion of the circumferential groove located on the panel surface portion, a horizontal stripe portion is provided at an upper end portion of an inner surface defining the circumferential groove, and a vertical stripe portion extending downward from the horizontal stripe portion is disposed.

A container for food safe liquids for beverage dispensers, includes a first end, or bottom wall, a second end, or neck, equipped with a portion for releasing the water designed to be connected to a corresponding junction portion of a beverage dispenser and a tubular wall extending annularly along its own main central axis between the first end and the second end. The tubular wall extends along the central axis with a succession of ridges and grooves such a way as to be collapsible along the central axis to reduce its overall dimensions, so as to compensate the negative pressure generated inside the container during dispensing of the liquid preventing contact between the liquid and the air outside the container.

A non-round container including a sidewall with an outer surface. A first vacuum panel is recessed beneath the outer surface and includes at least one first rib. A second vacuum panel is recessed beneath the outer surface and includes at least one second rib. A middle vacuum panel is recessed beneath the outer surface and is positioned between the first and the second vacuum panels. The middle vacuum panel includes at least one middle rib.

An injection-molded preform for forming an 8 ounce PET container includes a neck portion configured to engage a closure and having a first wall thickness and an elongated body portion having an upper segment adjacent the neck portion and a lower segment adjacent an end cap. The upper segment has a second wall thickness substantially similar to the first wall thickness. The lower segment has a third wall thickness greater than the second wall thickness. The preform has a total weight less than 7 grams.

A heat-set container that defines a longitudinal axis is disclosed that includes a finish and a sidewall portion extending from the finish. The container also includes a base portion extending from the sidewall portion and enclosing said sidewall portion to form a volume therein for retaining a commodity. The base portion has a plurality of contact surfaces for supporting the container. The plurality of contact surfaces are spaced away from each other about the longitudinal axis. Also, the container includes a central pushup portion disposed in the base portion and extending generally toward the finish. The central pushup portion is substantially centered on the longitudinal axis, and the central pushup portion is moveable in response to internal vacuum pressure to decrease the volume.

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.

Embodiments of the present disclosure generally relate to caps, closures, seals, and containers, and control of flow of fluids. Certain embodiments can be used with fluids related to machinery, for instance, engine oil, brake fluid, coolant, transmission fluid, and power steering fluid. Certain embodiments of the present disclosure effectively hold and transfer a fluid or a fluid substance, further being able to open, close, and regulate fluid flow. Embodiments include a single piece tubular component that includes a cap interiorly attached to such tubular component with ribs, and a container having a tapered end. In certain embodiments, a nozzle having a tapered end is adapted to attach to a container.

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.

There is provided a resin container including an upper surface portion, a side surface portion connected to the upper surface portion, and a bottom surface portion disposed on a side opposite to the upper surface portion and connected to the side surface portion. A round corner surface portion is formed to the side surface portion. A first folding deformation inducing portion is formed on the round corner surface portion. When the container is viewed from a side surface portion side such that a central axis of the container and the round corner surface portion overlap with each other, the first folding deformation inducing portion is oblique with respect to the central axis.

Various embodiments are directed to a container spout secured relative to a hollow container body. The container spout includes a cap region configured to accept a container cap (e.g., a snap-on cap), and a support region positioned between the cap region and the hollow container body. The support region comprises one or more bumper rolls positioned around an exterior of the support region and one or more support protrusions extending between a bottom edge of the cap region and a bottom edge of the support region, wherein each of the one or more support protrusions defines a substantially horizontal convex curvature having a radius smaller than a radius of the container spout. The support protrusions are aligned with corners of the container, and thereby transfer axial crushing forces applied to the container spout onto the container corners to increase the axial crush resistance of the container.