A mixing station is provided, comprising: a standard shipping container having a floor, a pair of side walls and at least one door at one end of the container; an end wall positioned adjacent the one end of the container, the end wall including a plurality of couplings; at least one internal wall disposed within the container to define, with the end wall, a room; and mixing components disposed within the room; wherein ingredients external to the container are provided to the mixing components through the plurality of couplings in the end wall and a final mixture of the ingredients is provided from the mixing components to an output container through the plurality of couplings such that the side walls of the container are not structurally compromised.

A flexible package for storing and transporting bulk goods. Such flexible package can have material-impermeable connections for spreading out sections of the flexible package wall so as to correspond to a predefined shape. One or more docking connections for filling and discharging can be included. The flexible package can have a square bottom and adjacent to the sides thereof triangular stubs as lateral walls. Together, such lateral walls can form an upwardly open pyramid shape. Opposite the bottom, a coupling element can be connected in such a manner that it presents the flexible package so as to be sealable in a standardized manner on open-sided ends of the lateral walls.

A cap for bottles that allows a user to select additives. A base has an axis with a coaxial cavity, typically threaded, for attachment to the bottle. A housing rotates and reciprocates on the axis between a selecting position where the housing and base are pulled apart and an operative position where the housing and base are pushed together. Compartments with additives and one or more vacant locations are arranged in a circle around the axis inside the housing. An opening in the compartment bottom is covered by a frangible seal. As the housing rotates, the compartment openings or vacant location align with an aperture in the base that extends into the cavity. Spikes extending from the aperture puncture the compartment opening seal when the housing is pushed to the operative position, allowing the additive to flow into the bottle. The vacant locations provide positions for storage and transportation.

A flexible package for storing and transporting bulk goods. Such flexible package can have material-impermeable connections for spreading out sections of the flexible package wall so as to correspond to a predefined shape. One or more docking connections for filling and discharging can be included. The flexible package can have a square bottom and adjacent to the sides thereof triangular stubs as lateral walls. Together, such lateral walls can form an upwardly open pyramid shape. Opposite the bottom, a coupling element can be connected in such a manner that it presents the flexible package so as to be sealable in a standardized manner on open-sided ends of the lateral walls.

A bottleneck insert having a cylindrical body; a tube located inside the cylindrical body, wherein the tube is coaxial with the cylindrical body and extends through along the cylindrical body, end wherein the tube is connected to a side wall of the cylindrical body via a base located at a first end of the side wall of the cylindrical body; and a sieve having a form of a circular ring and located between the tube and the side wall of the cylindrical body.

A mixing station is provided, comprising: a standard shipping container having a floor, a pair of side walls and at least one door at one end of the container; an end wall positioned adjacent the one end of the container, the end wall including a plurality of couplings; at least one internal wall disposed within the container to define, with the end wall, a room; and mixing components disposed within the room; wherein ingredients external to the container are provided to the mixing components through the plurality of couplings in the end wall and a final mixture of the ingredients is provided from the mixing components to an output container through the plurality of couplings such that the side walls of the container are not structurally compromised.

A container assembly for storing multiple liquids is disclosed. The container assembly comprises a container body having a first compartment and a second compartment. Each compartment comprises an upper end, an opening at the upper end, and a lower end. The container assembly further comprises an insulator provided between the first compartment and the second compartment configured to separate both compartments, thereby allowing the container body to store multiple liquids simultaneously. Further, the container assembly further comprises a rotatable lid detachably attached to the upper end of the container body configured to prevent and stop any leakage, wherein the rotatable lid is activated to set the amount of liquid to be dispensed from each compartment.

A compartmented bottle has a primary compartment and at least one secondary compartment. The primary compartment has an exhaust aperture and an inlet aperture, and the secondary compartment has a secondary exhaust aperture. The inlet aperture of the primary compartment and the secondary exhaust aperture of the secondary compartment are fluidically connected by an inter-compartmental conduit, and a selectively actuated inter-compartmental valve is disposed in the conduit. The valve, which could comprise a cylindrical valve, has a closed condition wherein the secondary compartment is sealed and an open condition wherein the secondary compartment is in fluidic communication with the primary compartment. A toroidal collar can bridge an annular channel between the primary and secondary compartments to establish a continuous cylindrical surface. The valve can be operated by a handle disposed at a distal end of an actuation rod that is drivingly engaged with the inter-compartmental valve.

In some embodiments, apparatuses and methods provided herein are useful for dispensing a fluid, such as a thixotropic fluid. In some embodiments, a bottle having a closure cap includes a flip top, a base, and a disk, where the base and disk define a mixing chamber configured to facilitate mixing of any serum or liquid separated from the fluid back therein. In some configurations, the base has a central opening through which the fluid exits and an internal shaft with a non-planar end surface opposite the central opening. In some configurations, the non-planar end surface and the disk define channels between the mixing chamber and the internal shaft. In some embodiments, the disk includes a central opening, a plurality of partial annular openings through a planar surface of the disk, and projections extending into the mixing chamber.

Provided is an electric stirring cup, including a base assembly; the base assembly is provided with a first magnetic attraction member and a power supply assembly; a cup body assembly includes a power portion, the power portion has an electric motor, the cup body assembly is provided with a second magnetic attraction member, and the base assembly and the cup body assembly can be magnetically connected through a first magnetic attraction member and the second magnetic attraction member; and when the base assembly and the cup body assembly are in a connected state, the electric motor and the power supply assembly can form a closed power supply circuit.