A receptacle for containing a powder and for mixing the powder with a liquid into a mixed product. The receptacle comprises a body at least partly comprising a flexible material, the body being adapted to be collapsible when containing the powder and to be expandable when receiving the liquid, a conduit being connected to the body and comprising a first and a second open end, where the first open end is arranged outside the body and the second open end is arranged in the inner volume of the body so that the conduit provides fluid communication between the outside and the inner volume of the body, the first open end being releasably connected to a closing member for blocking access through the first open end, the the receptacle further comprising a filter element adapted to be connected to the second open end of the conduit.

The present invention is directed towards an apparatus for providing a nonlabor-intensive process for sealing an opening formed in the ground with a chemically-inflatable bag. The chemically-inflatable bag contains two or more chemical reactants, one of which is a liquid reactant that is initially stored in a liquid-containing device. The liquid-containing device has a removable cap, which upon removal or breakage of the cap permits the liquid reacting agent to contact and react with another reacting agent. The chemical reaction produces carbon dioxide, which expands the chemically-inflatable bag from a collapsed condition to an inflated condition. In the inflated condition, the chemically-inflatable bag fills and protects the integrity of the formed cavity.

A beverage container may comprise a beverage container lid assembly comprising at least one concentrate well to hold a concentrate vessel, a concentrate vessel retainer for each concentrate well to secure the concentrate vessel in the concentrate well, a feed line for each concentrate well comprising a feed line needle to puncture the concentrate vessel in the at least one concentrate well, a Venturi mixer in fluid communication with each feed line, a mixing valve in fluid communication with each feed line, wherein fluid flows from the concentrate vessel to the Venturi mixer when the mixing valve is open and the concentrate vessel is punctured by the feed line needle. Methods of using the beverage container and beverage container lid assembly are also described.

An agitator may include one or more members adjustable between an expanded configuration and a compressed configuration. When the one or more members are in the expanded configuration, the agitator in a first set of two orthogonal dimensions is larger than an opening having a predetermined size. When the one or more members are in the compressed configuration, the agitator in a second set of two orthogonal dimensions is smaller than the opening having the predetermined size. The one or more members are biased to the expanded configuration in absence of external force applied to the one or more members. In use, the agitator may be inserted into a container through a neck of the container in the compressed configuration. The agitator may expand within the container so that the container does not fit through the neck of the container.

A blender system includes a blender and container. The blender includes a bottle including a blending chamber with a bottle opening and a shoulder about the bottle opening, and a lid configured to couple with the bottle and that includes a container receiver. The container includes a nutrient receptacle to receive contents with a closed end and a receptacle opening opposite the closed end, a lip about the receptacle opening, and at least two flaps coupled to the lip via a lip hinge and positioned to cover a portion of the opening. Coupling the lid to the bottle with the container in the container receiver presses the lip towards the closed end so that the at least two flaps are pushed open to discharge the contents into the blending chamber.

Disclosed is an electric stirring cup, where one end of a hollow cup body is connected with a cup cover through threaded connection; one end of the hollow cup body far from the cup cover is connected with a base; a connecting end is integrally formed on the base; an inner wall of the one end of the hollow cup body far from the cup cover forms a connecting cavity, the connecting cavity is in threaded connection with the connecting end; a stirring mechanism is installed in the base; and a drinking mechanism is installed on the cup cover. A drink that needs to be stirred is poured in, and after being directly stirred and mixed through the stirring mechanism, the drink may be consumed after the cup cover is unscrewed, whereby the electric stirring cup is easy to use. The hollow cup cavity and the stirring mechanism may be directly cleaned after disassembling the base, whereby the electric stirring cup is easy to clean.

Disclosed herein are beverage aerator devices that include a body that has a top surface and a bottom surface. At least one choke extends through the body and has a choke inlet at the bottom surface of the body and a choke outlet at the top surface of the body. A pressure exchange extends through the body and has a pressure exchange outlet at the top surface of the body. A pressure exchange tube is in fluid communication with the pressure exchange and has a pressure exchange inlet distal from the bottom surface of the body.

A modular flow monitoring package (MFMP) is provided for use in an additive delivery system. The MFMP may be manufactured as an add-on to be added to an existing additive delivery system, or may be incorporated into a cartridge or container structure. The MFMP includes a flow sensor for sensing flow of a base fluid and user actuator position sensors for sensing the position of one or more user actuated additive flow adjustment levers. A visual display, which may comprise an array of multi-color LED's may convey information to a user that is relevant to a user's use of the additive delivery system or the user's nutritional needs. Such information may include a current dosage of additive, being delivered, whether a recommended dosage of additive has been consumed, remaining life of a cartridge or supply of additive, and other data relative to health or performance monitoring.

A beverage apparatus, the beverage apparatus being hand-holdable by a user of the beverage apparatus to be portable, can include a beverage chamber housing that includes a chamber for storing a consumable liquid. The beverage apparatus can include a dispensing assembly that includes a receptacle. The receptacle can retain a vessel. The vessel can include an electronic tag and can contain an additive. The dispensing assembly can be operatively controllable by a controller to output the additive from the vessel into the consumable liquid. The beverage apparatus can include one or more sensors, devices, or assemblies that can be used to detect a volume of liquid in the chamber or a liquid level in the chamber. The beverage apparatus can include an apparatus processing portion (ACP) and an apparatus database portion. The beverage apparatus of the disclosure can include various additional features.

A mixing cartridge delivery system, which mixes additive with base liquid flowing through it, utilizes a dispensing closure valve to achieve improved flow of mixed liquid from the cartridge. A closure base may include a tethered lid. A flexible valve, such as a slit valve, is supported on a valve supporting end of the closure base and retained thereon with a valve retainer that interlocks with the closure base. The system may include a one-way valve for base liquid and a mixing section defined in the cartridge. The dispensing closure valve achieves improved flow characteristics in combination with the base liquid valve. The dispensing closure valve also prevents leakage and inadvertent discharge from the cartridge system.