A drinking vessel including a beverage container and a closure assembly attachable to the beverage container. The beverage container has a spout defining a first drinking opening and a second drinking opening. The closure assembly includes a positioning member and a sealing member. When the positioning member is in a sealing orientation, the positioning member can extend deep enough into the first drinking opening for the sealing member to seal the first drinking opening and the second drinking opening. When the positioning member is not in the sealing orientation, the positioning member cannot extend deep enough into the first drinking opening for the sealing member to seal the first drinking opening and the second drinking opening.

A straw bottle includes a straw bottle body and a cover seat, wherein the cover seat is provided with an opening; an end of a cover is hinged with the cover seat, and another end of the cover is connected with the cover seat in a snap-fit manner to open or close the opening; a straw detachably connected with the cover seat, the straw includes a rigid part and a resilient part arranged at a bottom of the rigid part; when the cover is locked with the cover seat, the cover pushes the straw to make the resilient part be in the pressed and bent state, and the straw retracts back into the opening; and when the cover is unlocked with the cover seat, the resilient part is restored by a resilient force, so as to push the straw out of the opening and the straw pushes the cover up.

Disclosed are embodiments of bottle caps that comprise a rigid body configured to be secured to an opening of a bottle, a multi-position valve coupled to the body for regulating fluid flow through the cap, and a lid coupled to the body that can cover the valve. The cap can be adjustable between at least a closed position, a selectively open position, and a fully open position. In the closed position, the lid covers the multi-position valve and fluid flow through the multi-position valve is prevented. In the selectively open position, the lid is uncovered from the multi-position valve and the multi-position valve is operable to open to allow fluid flow when a flexible portion of the multi-position valve is squeezed by a user. In the fully open position, the lid is uncovered from the multi-position valve and fluid can flow freely through the multi-position valve.

A beverage sipper for use with a beverage bottle such as a sparkling beverage bottle comprises a stem portion adapted to be releasably inserted into the neck of a beverage bottle, the stem portion comprising a stem wall having an outer surface adapted to contact the neck of the beverage bottle and an inner surface that defines a stem portion beverage passageway and a sipping portion adapted to extend out of the neck of the beverage bottle when the stem portion is inserted in the beverage bottle, the sipping portion comprising a sipping wall with an inner surface that defines a sipping portion beverage passageway that is in flow communication with the stem portion beverage passageway. The stem portion has a securing mechanism to secure the stem portion within the beverage bottle. The securing mechanism has a biasing mechanism that biases at least a portion of the stem wall outwardly, wherein the bias of the biasing mechanism may be overcome by applying an inward force to the stem wall to move at least a portion of the stem wall inwardly to allow the stem wall to be inserted into the neck of the beverage bottle. When the inward force is removed the biasing mechanism causes at least a portion of the stem wall to be forced outwardly to apply pressure against the neck of the beverage bottle when the stem portion is inserted in the beverage bottle. The securing mechanism is configured to allow the stem portion to be secured to beverage bottles have different diameter necks.

The present invention relates to a weaning clip and, more particularly, to a weaning clip which can be used not only by infants or handicapped people, but also by people from all walks of life, which is mounted on a bottle containing mineral water or any other type of drink instead of a cap and enables the user to drink the content inside the bottle with their mouth contacting the bottle or to take in the content using a straw, and which comprises an adapter that can be mounted regardless of the diameter of the bottle entrance.

A closure for a drinking bottle includes a closure cap for fixing the closure to a drinking bottle. The closure cap has a through hole and at least one ventilation opening, and a seal arranged in the closure cap. Either the seal or the closure cap has a web, by which the seal and the closure cap are at least in contact section-wise. The seal is of such a configuration that, upon the occurrence of an increased or reduced pressure in the bottle and/or by axial displacement of the seal in the closure cap, at least a section of the seal that is between the web and an inside wall of the closure cap lifts off the inside wall of the closure cap and thus opens a gap for ventilation of the drinking bottle by the at least one ventilation opening.

This document discloses a disposable beverage cup with a non-removable straw. This disposable beverage cup and non-removable straw substantially reduce, or even eliminate, a chance that the straw will end up, on its own, polluting the world's oceans or land. This is due to the straw being non-removable and, along with the disposable beverage cup, being more likely to be properly disposed of, composted, or otherwise responsibly handled.

The present invention relates to a straw (1), a straw assembly (2) and a cup assembly (3). The straw (1) comprises first holes (13) in an upper half and second holes (14) in a lower half both arranged at the lateral surface of the straw (1). A sleeve element (20) can be arranged coaxially to and around the straw (1) to form a straw assembly (2). The sleeve element (20) is configured to close the first holes (13) in a first position and the second holes (14) in a second position. The straw assembly (2) can be arranged in a cup assembly (3). As the sleeve element (20) is also configured to float in a liquid the sleeve element (20) is moved through the force of buoyancy either to the first or the second position depending on the inclination of the cup assembly (3) with respect to the force of gravity. This provides a solution for any angle drinking.

A spill-proof cup includes a cup body, a cup lid disposed at the top of the cup body; a lid control device connected to the cup lid for opening or closing the cup lid; a top acceleration switch set disposed on the top of the cup body, and the top acceleration switch set including a first acceleration switch and a second acceleration switch; a bottom acceleration switch set disposed at the bottom of the cup body, and the bottom acceleration switch set including a first acceleration switch and a second acceleration switch; a controller connected to the first acceleration switches, the second acceleration switches and the lid control device, and configured to receive signals from the first and second acceleration switches, and control the lid control device according to the signal. A triggering threshold of the second acceleration switch is greater than that of the first acceleration switch.

An embodiment of a cap for a bottle may comprise a body and nozzle. The body may include an annular wall, an aperture configured to receive a nozzle, and a plug rigidly attached within the aperture. The nozzle may be movable between a retracted position in which fluid cannot pass between plug and nozzle, and an extended position in which fluid can pass between plug and nozzle. The nozzle may include an inner wall and an outer wall. The outer wall may have at least one longitudinal recess. The longitudinal recess may allow selective passage of air. The longitudinal recess may allow air to flow through the recess and into the bottle when the nozzle is in the extended position, and is contained within the aperture and is thus configured to prevent air from flowing through the recess and into the bottle when the nozzle is in the retracted position.