The present disclosure relates to a bottle for storing a beverage powder, dispensing the beverage powder into a liquid, and thoroughly mixing the dispensed powder into the liquid.

Improvements in an agitator is disclosed. The agitator has a central body with sides that have blades that flex or bend inward upon insertion and then expand once the pass through the neck of the bottle. The side are elongated and allows the mixer to have an orientation within the bottle. The orientation allows for a buoyancy of the mixer to break-up powder or fruit that typically floats on the surface of the liquid. The side elements can cut into fruit and pulverize power to blend the ingredient(s). A carrier or case for the mixer provides a container for the mixer to dry and further collects and water from the mixer. A removal hook allows a user to snag one of the ends or a side element. The side flexing elements of the mixer will bend inward to pass the mixer out the neck of the bottle.

An apparatus for use with baby bottles, a baby bottle assembly, and a method of preparing liquid infant formula for feeding to a baby are disclosed. A measuring and mixing pod allows the appropriate amount of powdered infant formula to be measured out in advance and stored within the baby bottle from which it is to be served. The same bottle may be filled with water or other liquid while keeping the powdered formula dry. Further, a simple and quick method is provided for mixing the powdered formula with the liquid stored in the bottle when it is time to feed the baby.

A fluid storage device includes a container and a torsion sensor. The container stores a fluid to be agitated. The torsion sensor has a substrate and detects torsion of the substrate. The substrate has a first end inserted in the container and a second end fixed to the container or a housing.

A physically independent agitator for insertion in a liquid container is disclosed. An example agitator includes a central body having sufficient density to be immersed in the liquid in the container. The agitator includes a plurality of blades supported by the body. Each of the blades has a proximal end attached to the body, and an outer edge having a triangular cross section. The blades are propelled by the liquid to cause the agitator to spin when the container is shaken.

A mixing assembly includes a container having a wall that defines an interior chamber within which a product is received. A mixing structure is received within the interior chamber and mixes the product. The mixing structure has a body portion that extends along a body axis between a first end and a second end. The first end of the body portion has a first cross-sectional size. The second end of the body has a second cross-sectional size that is larger than the first cross-sectional size. The body portion has a wall that extends helically about the body axis between the first end and the second end. The wall defines a channel that extends helically about the body axis. An end axis extends perpendicular to the body axis radially outwardly to an exterior of the body portion through an opening defined by the wall.

The disclosure is directed to a sample preparation apparatus for grinding or homogenizing test samples. More specifically, the disclosure relates to grinding samples using rotational and linear motion. Grinding samples can be accomplished with an apparatus with a slider-crank mechanism that is attached to an oscillating connecting linkage. The amplitude of oscillatory motion can be greater than or equal to a length of a sample processing chamber.

A mixing assembly includes a container having a wall that defines an interior chamber within which a product to be mixed is received. A mixing structure is received within the interior chamber and mixes the product. The mixing structure has a body portion that extends along a body axis between a first end of the body portion and a second end of the body portion. The first end of the body portion has a first cross-sectional size. The second end of the body has a second cross-sectional size that is larger than the first cross-sectional size. The body portion has a wall that extends helically about the body axis between the first end and the second end. The wall defines a channel that extends helically about the body axis between the first end and the second end.

Improvements in an agitator is disclosed. The agitator has a central body with sides that have blades that flex or bend inward upon insertion and then expand once the pass through the neck of the bottle. The side are elongated and allows the mixer to have an orientation within the bottle. The orientation allows for a buoyancy of the mixer to break-up powder or fruit that typically floats on the surface of the liquid. The side elements can cut into fruit and pulverize power to blend the ingredient(s). A carrier or case for the mixer provides a container for the mixer to dry and further collects and water from the mixer. A removal hook allows a user to snag one of the ends or a side element. The side flexing elements of the mixer will bend inward to pass the mixer out the neck of the bottle.

Apparatus for mixing culinary ingredients including a container with a lid and mixer with fingers are disclosed. Methods of mixing culinary ingredients using apparatus are also disclosed.