A vented cap adapted to accumulate an overflow of liquid from a reservoir and vent gas from the reservoir to atmosphere. The vented cap includes an insert and a shell. The insert includes a projection extending longitudinally from a floor pan. The shell includes an outer skirt joined to and extending longitudinally outwardly from the floor pan and is attached to a top. The top and the outer skirt define a headspace between the floor pan and the top. The projection extends into a portion of the headspace and defines a projection aperture, allowing liquid and gas to flow into the headspace. The vented cap further includes a vent in fluid communication between the headspace and atmosphere.

Disrupted closures are described herein which can provide for consistent flow paths for gas transfer from a container. The closures include a sealing member extending on the inside of the closure to contact a vented liner and/or the rim of a container. The sealing member includes a sealing portion and one or more disruptions in the sealing portion to provide gas pathways to the ambient atmosphere.

A drinking vessel may include a tumbler having an inner surface dimension, a first portion, and a second portion. The first portion may include a proximal surface having a first dimension and a first rim coupled to the proximal surface and having a second dimension, the first dimension being larger than the second dimension. The second portion may include a collar having an outer dimension substantially similar to the first dimension, an inner dimension substantially similar to the second dimension, and a second rim connected to the collar and having an outer dimension substantially similar to the second dimension and the inner surface dimension.

A lid assembly includes a lid element having an annularly shaped peripheral portion configured to be axially aligned with and disposed between a rim of a canning container and a radially extending portion of a retainer element when the lid assembly is engaging the canning container and the retainer element is removably coupled to the canning container. An annularly shaped sealing element is disposed on the peripheral portion of the lid element and is configured to directly engage the rim of the canning container when the lid assembly is contacting the canning container. A plurality of projections is formed in the peripheral portion of the lid element with each of the projections forming a distally disposed surface of the peripheral portion with respect to an exterior axial direction of the lid element extending away from an interior of the canning container when the lid assembly is engaging the rim.

An in-bottle aerator for mixing the oxygen in the air with wine as the wine is poured from its bottle. The aerator has at least one air ingress channel extending from one end of the aerator to the other, allowing air into the bottle to displace wine exiting the bottle. Air mixing channels draw air from outside the bottle and direct that air to lateral channels that intersect a central flow channel extending from one end of the bottle to another. The air mixing and air ingress channels are preferably arranged to allow the user to pour and aerate wine at the same time and with the bottle in any orientation about its axis. The aerator may be a separately formed component that can be inserted into the bottle by the bottle manufacturer, by a wine bottler or by an enduser. Alternatively, the aerator may be wholly or partly formed as part of the neck of the bottle. A completely and integrally formed aerator may be formed as a part of a plastic wine bottle. For plastic or glass wine bottles, aeration channels may be formed on the internal surface of the neck of the bottle, and an insert can be used to complete the within bottle aerator by the insertion (by the bottle manufacturer, by a wine bottler or by an enduser) of an aerator component having additional channels formed therein.

An example lid assembly can include a lid and a slider. The lid can include a wall defining a recess. The slider can be configured to slide in the recess and can be configured to move between a closed position where the slider covers the opening to aid in preventing spilling of contents of the container and an opened position where the slider uncovers the opening such that the contents of the container can be consumed. The slider can be configured to be removable from the lid and can be replaced back on the lid. Additionally, the slider can be configured to lock into place on the recess in both the closed position and the opened position.

A screw top cap with a tube attached through the center of the cap. The tube is plugged with stopper material. The arrangement combines a screw top cap with a plug stopper.

The disclosure relates to a packaging which comprises a packaging lower part, which is in the form of a packaging tray with a tray edge projecting circumferentially, and a lid part which is adhesively bonded to the tray edge. The lid part comprises a self-adhesive label which is removed from a carrier band and to the underside of which adhesive is applied exclusively circumferentially in the region of a label edge to be adhered to the tray edge. Furthermore, the disclosure relates to a method for producing a packaging.

A protective enclosure for a bar of soap that is designed to securely fix a bar of soap to a base, itself exhibiting receiving and securing mechanism, a centralized ventilation port and drain (or drains), and an occlusive top enclosure, wherein, once the soap is fixed to the securing mechanisms, through the application of force, and subsequent to first use, the soap and base of the protective enclosure form an adhesive seal facilitated by said securing mechanisms and drain or drains. The top enclosure and base themselves are reversibly adherable to one another through magnetic, mechanical means or a combination of both. The soap can be used either attached to the base of the protective enclosure or detached from the base of the protective enclosure.

Disrupted closures are described herein which can provide for consistent flow paths for gas transfer from a container. The closures include a sealing member extending on the inside of the closure to contact a vented liner and/or the rim of a container. The sealing member includes a sealing portion and one or more disruptions in the sealing portion to provide gas pathways to the ambient atmosphere.