A dispensing system for a flexible bag including a spout having a body, a plug and a first and second flexible coupling. The body includes a central bore extending therethrough, with a lower ring wall at a lower end. The plug has a cavity and plug ring wall attachable to the lower ring wall in sealed engagement. The first flexible coupling and the second flexible coupling each being formed from a base web and extending from the lower end of the body. A first arm is coupled to the base web at a first hinge. A second arm is coupled to the first arm opposite the base web at a central hinge. The plug is coupled to the second arm opposite the first arm at a plug hinge. A probe is likewise disclosed that is insertable into a flexible bag, as is a flexible bag assembly and method.

A storage and dispensing system for a flexible bag comprising a container assembly and a cover. The container assembly having a container storage and dispensing portion, and a container elevating portion. The upstand portion of the container storage and dispensing portion includes a wall defining a spout retaining portion defining an engaging end that is configured to retain a spout of a bag assembly. The spout retaining portion is spaced apart from the upper edge. A spout guiding portion extends from the upper edge to the spout retaining portion. The cover further includes a locking tab having a spout interfacing edge. Attaching the cover to the container assembly directs the locking tab over at least a portion of the spout guiding portion with the spout interfacing edge structurally configured to interface with a portion of the spout of the bag assembly, to retain the same in an engaging orientation.

A closure assembly includes a top, a base, and a follower. The top includes a plurality of top teeth extending from the inner surface and arranged around a fluid orifice. The base is coupled to the top, wherein the top is moveable relative to the base. The base includes a central hub defining a cam path. The follower includes a plurality of top follower teeth engaged with the plurality of top teeth of the top and a plurality of base follower teeth disposed in the cam path of the base. The top and the follower are biased away from the base, and depressing the top relative to the base causes the follower to rotate relative to the top between an open position in which a fluid flow path is open to the fluid orifice and a closed position in which the fluid flow path is closed to the fluid orifice.

A liquid container, meeting all federal, state and local regulations, comprising a vessel with an opening and a self-venting spout which is mounted to the vessel in a manner allowing the spout, from a stowed position, to rotate into its operational position and coupling to the opening with a coupler. Both open ends of the spout are automatically covered when stowed. A valve assembly at the opening of the vessel is operated externally by a trigger located near the underside of the primary handle. The valve assembly controls flow of liquid out of the vessel and through the self-venting spout. Venting of the vessel is allowed through a series of channels, respectively comprising an interior channel within the spout, an intake port, and an intake channel leading to the rear of the vessel above the liquid line. The vessel opening is covered by a lid mounted to the vessel that rotates into operational or stowed position and is sealed by the coupler.

A liquid container, meeting all federal, state and local regulations, comprising a vessel with an opening and a self-venting spout which is mounted to the vessel in a manner allowing the spout, from a stowed position, to rotate into its operational position and coupling to the opening with a coupler. Both open ends of the spout are automatically covered when stowed. A valve assembly at the opening of the vessel is operated externally by a trigger located near the underside of the primary handle. The valve assembly controls flow of liquid out of the vessel and through the self-venting spout. Venting of the vessel is allowed through a series of channels, respectively comprising an interior channel within the spout, an intake port, and an intake channel leading to the rear of the vessel above the liquid line. The vessel opening is covered by a lid mounted to the vessel that rotates into operational or stowed position and is sealed by the coupler.

A beverage container closure or lid that is adapted for closing an open end of a beverage container. The lid is selectively couplable to the beverage container and includes a selectively openable stopper that when closed, creates a fluid-tight seal between the beverage container and the environment. The stopper may be selectively opened by a user by the user pressing a button disposed on a side of the beverage container closure. The stopper is subsequently automatically closed when the user releases the button. Thus, a user may open and close the beverage container closure using a single hand without the need to remove the beverage container closure from the beverage container.

The bag side connector for a BIB package comprises: an element (10) having a longitudinal axis (12) and including a flange (14) with an upper and a lower face, wherein a first collar (16) protrudes from the upper face, so that a cylindrical chamber (18) is defined, a second collar (20) protrudes from the lower face, and the flange (14) has at least one through hole (22) in the area delimited by the second collar (20); and an internal valve device including an obturator (24) slidable along said axis (12) and a third collar (26) protruding from the lower face of the flange (14) coaxially and internally in respect of the second collar (20) and externally in respect of the area with at least one through hole (22), wherein said obturator (24) has a foot (30) suitable for contacting a distal edge (32) of the third collar (26) to form a leak-tight seal, and a top wall (34) from which an actuating pin (36) protrudes and extends through a center bore (38) of the flange (14). The connector further comprises an external valve device arranged in the chamber (18) and suitable for allowing/interrupting the fluid communication between the chamber (18) and the at least one (through hole (22) in dependence on the pressure existing in the chamber (18).

To modify the headspace in a container to remove vacuum pressure, a container has a seal or cap which may provide a temporary opening into the container which is sealable under compression to provide a controlled raising of the internal pressure as the heated contents of the container cools. A sealing chamber (84) may enable the introduction of a fluid into the headspace (23b) to force the fluid level (40) lower. Other methods and apparatus are described.

A container (100) with a lid lever (132) to disengage a lid present on a rim portion (112) of the container (100) is disclosed. The lid lever (132) is integrated between two cuts and is attached to a primary skirt (114) of the container (100). The lid lever (132) is pulled laterally outward towards a free end to disengage the lid. A secondary skirt (138) in the form of a flange is present behind the lid lever (132). The secondary skirt (138) prevents deformation of the primary skirt (114) and the rim portion (112) of the container (100). The shape of the lid lever (132) extends past the primary skirt (114) thereby making the lid lever (132) more effective and further makes it distinguishable from the primary skirt (114).

An additive delivery system may incorporate a cartridge system, including a container cap and a reservoir assembly that provides for storage of an additive. The container cap includes a mixing nozzle for mixing of the additive with a base fluid as the base fluid flows from the base fluid container through the cartridge. A one-way valve prevents backflow of base fluid and/or mixed base fluid/additive from an area downstream of the mixing nozzle such that the base fluid supply remains in a pure state.