A sealable pourer for mounting on a bottle is provided. The sealable pourer includes a cap to ensure that the pouring nozzle and air tube outlet are sealed, or otherwise closed, when in a first position of the cap and allow free flow of the liquid content of the bottle when in a second position. In one embodiment, the cap is rotated about a symmetry axis of the nozzle to achieve sealing of both the air passage and the pouring nozzle.

A discharge head for a fluid container, including a discharge opening and a switching valve which closes and opens a fluid path between the fluid container and the discharge opening. The discharge head has an inner component fixedly connected to a fluid store and an outer component movable relative to the inner component and non-separably connected thereto. The outer component is moved relative to the inner component between a first relative closure position and a second relative open position. The switching valve is opened and closed by movement of the inner component relative to the outer component, is closed in the first position and open in the second position. The inner and outer components are locked in the first position by a child-resistant mechanism, and displacement of the outer component from the first position into the second position is prevented in a locking position of the mechanism.

Present disclosure relates to a millipore vaporizer assembly and electronic cigarettes having the millipore vaporizer assembly. In certain embodiments, the millipore vaporizer assembly includes: a mouthpiece assembly for a user to enjoy vaporized E-liquid, an E-liquid storage tank assembly for storing E-liquid, and a millipore vaporizer tube for generating the vaporized E-liquid. The millipore vaporizer tube is vertically positioned on a millipore vaporizer tube support, and the millipore vaporizer tube is used for receiving and heating the E-liquid from the E-liquid storage tank assembly to generate the vaporized E-liquid. The millipore vaporizer tube has a first electric terminal and a second electric terminal. When the user connects the first electric terminal and the second electric terminal to an electrical power supply assembly, the millipore vaporizer tube receives the E-liquid from the E-liquid storage tank assembly and heats the E-liquid received through the millipore vaporizer tube to generate the vaporized E-liquid.

A system for extracting a liquid from a container. The system comprises a liquid extraction member including a liquid extraction inlet and one or more liquid extraction outlets. The system additionally includes one or more storage vessels each defining a liquid storage inlet coupled in fluid flow communication with the extraction member via one of the liquid extraction outlets. The system additionally includes a pressure differential device operable to cause liquid to flow from the container, through the liquid extraction member, and into one or more of the storage vessels. Furthermore, the system includes one or more fluid restrictors associated with the liquid extraction member and configured to prevent fluid flow in at least one direction through the liquid extraction member to prevent liquid in the liquid extraction member from receding from the liquid extraction member back into the container.

A rotary filling machine includes a hub member and a hub insert. The hub member includes an internal bore defining an inner surface portion with a plurality of material transfer openings. The hub insert includes a portion disposed within the bore, wherein the portion includes an outer surface portion that includes a plurality of material transfer openings. One of the hub member or the hub insert is rotatable and the other of the hub member or the hub insert is stationary.

This pouring closure permits controlled multi-side pouring by means of a canister spout. The pouring closure consists of a spout attachment (2), which forms a channel (14), which is reduced in size with respect to the spout and an upper outer edge of which forms a protruding drop lip (11). A closure cover (1), which acts as a jet former, forms a pipe (4), which extends downward and which fits into a channel (14) on the spout attachment (2) in a sealing manner. The pipe (4) extending downward has a lateral window (5), which extends at least around 90 of the pipe circumference. The remaining pipe circumference is doubled-walled. The interior thus formed leads toward the outside in the axial direction at the lower end of the pipe (4) as an air channel (7), and the air channel (7) likewise leads toward the outside only in the upper region of the window (5) laterally on both sides of the window. Thus, pouring can occur over each point of the drop lip (11) with a jet that always remains constant and with sufficient pressure equalization in the canister during the entire pouring process.

A containment system, and methods of making and using such a containment system, whereby the containment system includes a container having a container sidewall disposed between opposing container first and second ends; a cavity disposed in the container sidewall; a cover concentrically disposed about the container sidewall; and an aperture element disposed in the cover, the aperture element defining an aperture element opening communicating between cover inner and outer surfaces. The cover is rotatable about the container sidewall between first and second positions. In the first position, the aperture element opening aligns with the cavity, thereby allowing access to the cavity. In the second position, a portion of the cover overlays the cavity to enclose the cavity.

A bottle pour spout having a hollow elongated main body, at least one bottle neck engaging member, a bottle stopper having a first side and a second side sealing an open end of the liquid bottle, a reinforced stop located on the first side of the bottle stopper, a hollow spout extending from a first end of the main body and having a pour orifice proximal a free end, an air vent located on the hollow spout, an air tube connected to the air vent, a spout cap engaging the hollow spout and having a cap orifice alignable with the pour orifice, a first and second gripping wing located the spout cap in a spaced condition, a screened orifice located on the spout cap and having a different shape than the air vent, and a stop cover connecting the gripping wings while engaging a portion of the first side of the bottle stopper.

A wine dispenser is disclosed that protects unpoured wine from oxidation due to exposure to air within the dispenser. The dispenser includes a dispenser body having a piston disposed within, the piston being of a weight so as to move toward the dispensing end of the dispenser body when the dispenser is tilted downward, causing wine to be dispensed via a dispensing assembly. The dispensing assembly includes a lid having a wine flow channel that provides a path for wine to flow out of the dispenser body, and a unidirectional flow valve that is biased in a closed air-tight state to prevent air from entering the dispenser body via the wine flow channel, unless the unidirectional flow valve is forced into an open state, thereby allowing wine to flow out from the dispenser body via the wine flow channel, and then out of the dispenser via a pouring neck.

A wine dispenser is disclosed that protects unpoured wine from oxidation due to exposure to air within the dispenser. The dispenser includes a dispenser body having a weighted piston disposed within, the weighted piston being configured to move toward the dispensing end of the dispenser body when the dispenser is tilted downward, causing wine to be dispensed via a dispensing assembly. The dispensing assembly includes a lid having a wine flow channel that provides a path for wine to flow out of the dispenser body, and a unidirectional flow valve that is biased in a closed air-tight state to prevent air from entering the dispenser body via the wine flow channel, unless the unidirectional flow valve is forced into an open state, thereby allowing wine to flow out from the dispenser body via the wine flow channel, and then out of the dispenser via a pouring neck.