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.

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.

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.

The present invention provides a flow control assembly for a cup, comprising: a flow regulator located inside the cup, configured to cooperate with an outlet pipe of the cup, wherein the flow regulator is movable relative to the outlet pipe, and water quantity corresponding to the outlet pipe can be adjusted by changing relative position of the flow regulator and the outlet pipe; and a handle connected with the flow regulator, wherein the handle comprises a gripping portion located outside a cover of the cup and a shaft connected at one end with the gripping portion and at the other end with the flow regulator, and wherein the gripping portion is configured to control movement of the flow regulator via the shaft under external force. By providing a handle on the cover, the quantity of water at the water outlet can be easily adjusted without opening the cup body.

Embodiments of the present disclosure generally relate to caps, closures, seals, and containers, and control of flow of fluids. Certain embodiments can be used with fluids related to machinery, for instance, engine oil, brake fluid, coolant, transmission fluid, and power steering fluid. Certain embodiments of the present disclosure effectively hold and transfer a fluid or a fluid substance, further being able to open, close, and regulate fluid flow. Embodiments include a single piece tubular component that includes a cap interiorly attached to such tubular component with ribs, and a container having a tapered end. In certain embodiments, a tube is attached to the cap. In certain embodiments, a nozzle collar having a tapered end is adapted to attach to a container.

A lateral applicator kit for a pipe has a first application unit and a second application unit that are configured to apply a primer material or other substance to the exterior and interior lateral surfaces of a pipe, respectively. The first application unit is configured to receive primer through a supply engagement feature, which is in fluid communication with a reservoir cavity internal to the first application unit and further in fluid communication with at least one perforated annular wall of an application receptacle configured to receive, and apply primer to, the exterior lateral surface of a pipe. The second application unit is similarly but inversely configured to apply primer to the interior lateral surface of a pipe by receiving primer into a supply receptacle, which is transferred through at least one spout set into and through an annular distributing container connected annularly around the supply receptacle.

A container cap with a body having a lower portion with internal threads for connecting to a container, and an upper portion defining a main opening. The upper cap portion having a first surface defining a partial opening and a stem protruding through the main opening. The lower cap portion having a second surface defining a partial opening. The upper and lower cap portions configured to rotate with respect to one another such that the partial openings align between a closed position and an open position to selectively permit fluid flow therethrough. A method for capping a container.

A lateral applicator kit for a pipe has a first application unit and a second application unit that are configured to apply a primer material or other substance to the exterior and interior lateral surfaces of a pipe, respectively. The first application unit is configured to receive primer through a supply engagement feature, which is in fluid communication with a reservoir cavity internal to the first application unit and further in fluid communication with at least one perforated annular wall of an application receptacle configured to receive, and apply primer to, the exterior lateral surface of a pipe. The second application unit is similarly but inversely configured to apply primer to the interior lateral surface of a pipe by receiving primer into a supply receptacle, which is transferred through at least one spout set into and through an annular distributing container connected annularly around the supply receptacle.

A device is provided that assists with equalizing air pressure within a container with the atmospheric air pressure as liquid is being poured from the container and includes one or more relatively short air tubes. The device is provided with the ability to simultaneously equalize pressure in the container while also providing a drip collection mechanism. The device may be configured for unidirectional pouring or multi-directional pouring.

A dispensing closure (40) for use with a container (44) includes a body (54) having a dispensing spout (72) with an interior surface (80) that defines at least a portion of a passage (132) for communicating with the container interior to permit the flow of a fluent substance through the body (54). The dispensing closure (40) includes a closing element (56) attached to the body (54). The closing element (56) defines a transverse cover (130) having a closed position relative to the body (54) and an actuated, open position relative to the body (54). The transverse cover (130) has an outwardly projecting toggle tab (58) for being engaged by a user to move the transverse cover (130) from the closed position to the actuated, open position. The transverse cover (130) further has a flexible, resilient cantilevered sealing portion (142) that seals against the interior surface (80) of the dispensing spout (72) with the transverse cover (130) located in the closed position.