A biodegradable and/or compostable device is formed of a plant-based biopolymer in a range of 50 to 80% by volume and a polylactic acid (PLA) in a range of 10 to 30% by volume.

A portable, self-contained beverage apparatus includes a container assembly having a known storage capacity for storing a consumable liquid, and a dispensing assembly disposed within the container assembly that dispenses variable, non-zero quantities of additives into the consumable liquid. The dispensing assembly includes multiple apertures structured and arranged to retain vessels containing the additives to be dispensed into the consumable liquid. The beverage apparatus also includes a level sensor disposed within the container assembly that determines a consumable liquid level of the consumable liquid stored in the container assembly. In certain embodiments, one or more positive displacement pumping mechanisms are configured to pump additive liquid from additive containers into a beverage chamber. Other features relate to audio engagement processing. Other features relate to situational processing. Other features relate to group engagement processing.

A container for dispensing a composition comprises a container body extending along a longitudinal axis from a bottom end to a top end, the container body defining an internal cavity for holding the composition. The container body comprises a neck having a container opening open to the internal cavity, a front wall, a rear wall and a pair of side walls extending between the front and rear wall, and a shoulder comprising a pair of first shoulder walls extending between the neck and a respective side wall of the container body, the first shoulder walls extending at a first non-perpendicular angle with respect to the longitudinal axis. The container also comprises a shoulder fitting attached to the neck, the shoulder fitting extending over the first and second shoulders of the container body and including a nozzle extending therethrough, the nozzle open to the opening.

A bottle for use with a system for mineralizing drinking water has a body and an inner cap fixedly positioned in the opening of the body. The body has a neck extending outwardly therefrom. The neck defines an opening at the upper end of the body. The inner cap has an upper surface affixed over the opening of the body. The inner cap has an annular portion extending downwardly from the upper surface. The annular surface bears against an inner wall of the neck of the body. The inner cap has a receptacle opening at the upper surface. The inner cap has a channel extending downwardly therefrom so as to open to the interior volume of the body. A straw extends through the channel and into the interior volume of the body so as to have an end position in proximity to the bottom of the body.

Flexible package fitments for use with detachable dispensing systems are provided. Pouring spout fitments configured to be attached to the inner surface of flexible containers are also provided. The detachable dispensing systems and pouring spout fitments include a hollow rigid member (115) and an extendible spout (121) disposed within and at least partially attached to the hollow rigid member and selectively positionable between a recessed position and, alternatively, an extended position, in which the extendible spout is configured to dispense a pourable material from the container through a distal opening when the fitment is attached to a flexible package. Material containers are also provided that include the fitments described herein.

A cap includes an upper cap portion to enclose an opening of a bottle and hold a dosage of fluid, a lower cap portion to extend into the bottle and increase the dosage capacity of the cap, and a skirt configured to engage the exterior surface of the bottle to secure the cap to the bottle. The upper cap portion includes a top and a first sidewall having one or more sections that protrude radially away from other portions of first sidewall.

A cap includes an upper cap portion to enclose an opening of a bottle and hold a dosage of fluid, a lower cap portion to extend into the bottle and increase the dosage capacity of the cap, and a skirt configured to engage the exterior surface of the bottle to secure the cap to the bottle. The upper cap portion includes a top and a first sidewall having one or more sections that protrude radially away from other portions of first sidewall.

This disclosure relates to a lid assembly that has a lid assembly for a container, such as a drinking container, that includes a lid member, and a pouring member, wherein the lid member and pouring member are releasably connected to the container. The lid member may include a body member, a handle portion connected to the body member, an internal threaded portion, an internal receiving portion, and a lid gasket member arranged in the internal receiving portion. The pouring member may include a spout collar, a spout, and a spout opening extending through the spout, wherein the spout extends from the spout collar and includes an upper end above an upper surface of the spout collar. The lid assembly has a closed orientation that prevents liquid from flowing through the opening of the pouring member and an open orientation that allows liquid to flow through the opening of the pouring member. When the lid assembly is in the closed orientation, the lid gasket member contacts both the upper end of the spout and the upper surface of the spout collar.

An insulating container may include an opening, which can be sealed by a closure. The closure may have an upper portion with a handle that has a circular curvature equal to the cylindrical portion of the closure. The closure may also have a lower portion that is joined to the upper portion by an injection molded polymer element. The closure may also be in the form of “flip” type of closure such that the lid can be selectably opened or closed by the user by rotating a flip closure into either the opened or closed position. The closure may also be a two-part lid having a lower cap that may be configured to be removably-coupled to the container and an upper cap that may be configured to be removably-coupled to the lower cap.

The present disclosure provides methods for stabilizing a colloidal dispersion during transport for low defect tolerance applications. The methods involve eliminating fluid interfaces within a dispersion, storing the dispersion in an environment of inert gas, and degassing the dispersion. Several bottle closure devices are described which may be ideal for use with these methods, being able to seal a container filled with a dispersion, permit the removal of headspace and rapidly empty the contained dispersion. In one aspect, the device includes a vented cap and semi-permeable membrane, which allows the passage of gas into and out of the container, and a dispenser nozzle integrated with the device to allow a stored dispersion to be dispensed without removing the device from the container. In another aspect, the bottle closure device includes an attachment point for a removable downtube and dispenser nozzle.