A beverage brewer includes a container, a container collar, a brewing material holder, a mesh element, and a drive assembly. The container has an open top, a closed sidewall, and a closed bottom. The container collar is configured to cover a rim of the open top. The brewing material holder is configured to hold brewing material and to be suspended from the container collar and into an interior of the container. The brewing material holder includes a sidewall having an opening, an open top, and a bottom. The mesh element covers the opening in the sidewall of the brewing material holder. The drive assembly is positionable on the container collar and is configured to be mechanically coupled to and rotate the brewing material holder.

A beverage brewer includes a container, a container collar, a brewing material holder, a mesh element, and a drive assembly. The container has an open top, a closed sidewall, and a closed bottom. The container collar is configured to cover a rim of the open top. The brewing material holder is configured to hold brewing material and to be suspended from the container collar and into an interior of the container. The brewing material holder includes a sidewall having an opening, an open top, and a bottom. The mesh element covers the opening in the sidewall of the brewing material holder. The drive assembly is positionable on the container collar and is configured to be mechanically coupled to and rotate the brewing material holder.

Versatile devices, systems, and methods of cold brewing coffee and/or tea are disclosed which use pre-manufactured disposable coffee-containing cups. Alternatively, coffee or tea may be placed within a meshed container for cold brew. A single mug device and large volume dispensers are disclosed using the same cold brew technique, which has been shown to produce higher dissolved coffee/tea, resulting in a higher quality beverage.

Versatile devices, systems, and methods of cold brewing coffee and/or tea are disclosed which use pre-manufactured disposable coffee-containing cups. Alternatively, coffee or tea may be placed within a meshed container for cold brew. A single mug device and large volume dispensers are disclosed using the same cold brew technique, which has been shown to produce higher dissolved coffee/tea, resulting in a higher quality beverage.

A cold brew coffee extraction device includes a container having a first chamber for receiving cold water. A filtering cup is mounted in the first chamber and includes a second chamber intercommunicating with the first chamber. The second chamber receives coffee powders and includes a second opening. The filtering cup further includes a third opening at a lower end thereof and receiving a filter. A first guiding tube includes a first end intercommunicating with the second chamber and a second end located outside of the container. A pump is disposed outside of the container and is connected to the second end of the first guiding tube. A controller is electrically connected to the pump to control operation of the pump to thereby supply air into or suck air out of the first guiding tube, thereby controlling a water level of the cold water in the first chamber.

A module includes a housing, a sealing feature, a locking feature, and an agitator. The housing has an opening separating inner and outer surfaces and a boss that extends through the housing such that part of the outer surface forms an inner bore of the boss having a terminus pointing toward the opening. The agitator has a base, a shaft, and a mixing element coupled to the base such that the base, in cooperation with the sealing feature, circumferentially seals the opening of the housing to form a cavity defined by the inner surface. The shaft passes through the inner bore. The locking feature when engaged permits independent or simultaneous translational and rotational movement of the shaft while an area between the terminus of the boss and the shaft remains mechanically sealed during the movement against liquid or powder encroachment into a clean area of the inner bore.

A module includes a housing, a sealing feature, a locking feature, and an agitator. The housing has an opening separating inner and outer surfaces and a boss that extends through the housing such that part of the outer surface forms an inner bore of the boss having a terminus pointing toward the opening. The agitator has a base, a shaft, and a mixing element coupled to the base such that the base, in cooperation with the sealing feature, circumferentially seals the opening of the housing to form a cavity defined by the inner surface. The shaft passes through the inner bore. The locking feature when engaged permits independent or simultaneous translational and rotational movement of the shaft while an area between the terminus of the boss and the shaft remains mechanically sealed during the movement against liquid or powder encroachment into a clean area of the inner bore.

A beverage brewer includes a container, a container collar, a brewing material holder, a mesh element, and a drive assembly. The container has an open top, a closed sidewall, and a closed bottom. The container collar is configured to cover a rim of the open top. The brewing material holder is configured to hold brewing material and to be suspended from the container collar and into an interior of the container. The brewing material holder includes a sidewall having an opening, an open top, and a bottom. The mesh element covers the opening in the sidewall of the brewing material holder. The drive assembly is positionable on the container collar and is configured to be mechanically coupled to and rotate the brewing material holder.

A beverage brewer includes a container, a container collar, a brewing material holder, a mesh element, and a drive assembly. The container has an open top, a closed sidewall, and a closed bottom. The container collar is configured to cover a rim of the open top. The brewing material holder is configured to hold brewing material and to be suspended from the container collar and into an interior of the container. The brewing material holder includes a sidewall having an opening, an open top, and a bottom. The mesh element covers the opening in the sidewall of the brewing material holder. The drive assembly is positionable on the container collar and is configured to be mechanically coupled to and rotate the brewing material holder.

According to present invention, a basket for brewing coffee is disclosed. The basket includes a bottom wall, at least one side wall and a lid that define a cavity intended to receive an amount of ground coffee. The basket includes a plurality of openings that are sized to permit water to pass therethrough but to retain ground coffee in the cavity. The basket includes a baffle that includes at least one wall that extends generally radially between the side wall of the basket and a central portion of the cavity, the baffle wall being attached to at least one of the bottom wall, the side wall and the lid. The baffle ensures that the coffee grounds and water are sufficiently agitated during the brewing process.