Plastic container has a container body having an outer surface and defining a longitudinal axis, at least one recessed panel defined in the container body having an outer perimeter and recessed relative to the outer surface of the container body, the perimeter including opposing longitudinal sides and transverse ends, a transition region defined along the perimeter of the recessed panel, the transition region extending between the recessed panel and the outer surface, and at least one indentation formed in the transition region proximate at least one transverse end of the outer perimeter, the indentation having a height, a width, and a depth, the height of the indentation extending beyond the transition region. The indentation can prevent or reduce container failure due to external forces, such as side loading during a hot-fill process.

A bottle includes a cylindrical body portion in which a plurality of panel portions, which is recessed toward an inside in a radial direction of the body portion, are provided at intervals in a circumferential direction and pillar portions are each provided between the panel portions adjacent to each other in the circumferential direction. The panel portions each have a panel bottom wall portion located at an inside of the body in the radial direction and have a lateral wall portion extending from an outer circumferential edge of the panel bottom wall portion to an outside in the radial direction. A rib which protrudes toward the outside in the radial direction while having a gap with respect to the panel bottom wall portion is provided at the panel bottom wall portion, and a longitudinal lateral wall portion is at least directed in the circumferential direction.

A plastic container (1) has a first set of flex panels (2) and a second set of flex panels (3) one set being adapted to react to pressure changes within the container to a different degree than the other set. This can be achieved by different curvature and/or size and/or different distance from a central longitudinal axis of the container. At least one of the panels has at least two different extents of curvature. In some embodiments one or more of the panels may be flat.

A tube or other container for storing and dispensing a product such as toothpaste, a lotion, a cream, etc., includes one or more recesses. Initially, each recess (30) is in a concave position relative to an exterior of the sealed tube. Due to outgassing or other factors, pressure within an interior of the sealed tube may increase. During the pressure increase, the one or more recesses (30) deflect from the initial concave position toward a convex position relative to the exterior of the tube, thereby effectively increasing a volume of the interior of the tube and maintaining pressure within the tube at a more desirable level.

A preform assembly includes: an outer preform that includes an outer mouth portion and a stretch portion connected to the outer mouth portion and in which a recess extending in a vertical direction is provided on an inner surface of the stretch portion; and an inner preform that includes an inner mouth portion and a stretch portion connected to the inner mouth portion, wherein an outside air introduction port communicating with a part between the outer preform and the inner preform is provided in a mouth portion composed of the outer mouth portion and the inner mouth portion located on an inner side of the outer mouth portion.

A synthetic resin container that effectively absorbs reduced pressure generated inside the container due to hot filling to maintain the appearance and shape. A synthetic resin container includes a mouth as a dispensing spout for a content medium, a trunk, extending contiguous to the mouth via a shoulder, and a bottom, closing a lower end of the trunk. The trunk is provided with reduced pressure absorbing panels, which are formed as ribs extending in the vertical direction while twisting in the circumferential direction about a central axis of the trunk and which are arranged side by side in the circumferential direction of the trunk. Twist angle of a lower end with respect to an upper end of each reduced pressure absorbing panel about the central axis is 50 degrees or more.

The pouch has a sealable mouth section, a side wall, and a sealed base. The material in the region of the side wall is oriented biaxially via blow molding of an injection-molded preform, and has an average wall thickness of at most 0.2 mm. The shape of the sealed base is intended to permit the article to stand upright without support.

A recovery mechanism for an elastic container. The elastic container may be deformed by external pressure and recover when the pressure is reduced or released. The recovery mechanism of the present invention, acts to allow air to enter an elastic container during the recovery stage.

A round, hot fillable plastic container includes an upper portion defining an opening; a bottom portion; and a main body portion having a plastic sidewall that has a plurality of vacuum panels defined therein. The main body portion has a generally hourglass shape with a central portion that is narrower than upper and lower portions thereof. The hourglass shape optimizes grippability of the container. Grippability is optimized further by the presence of indentations that are formed between columns that define the hourglass shape and pillow portions that are provided for finger support. The indentations permit a consumer to gain finger traction and purchase with respect to the container body, even when a label is positioned between the container body and the user's fingers. The main body portion further has a first groove defined in the upper portion thereof, a second groove defined in the lower portion thereof and a third groove that is defined in the central portion thereof. The grooves provide dimensional stability during handling and when the main body portion is gripped by a consumer.

A plastic container comprises an upper portion including a finish adapted to receive a closure, a lower portion including a base, and a sidewall extending between the upper portion and the lower portion. The upper portion, the lower portion, and the sidewall define an interior volume for storing liquid contents. The plastic container further comprises a pressure panel located on the container and moveable between an initial position and an activated position. The pressure panel is located in the initial position prior to filling the container, and is moved to the activated position after filling and sealing the container. Moving the pressure panel from the initial position to the activated position reduces the internal volume of the container and creates a positive pressure inside the container. The positive pressure reinforces the sidewall. A method of processing a container is also disclosed.