A portable bottle having an internal mixing compartment for mixing a powder with a liquid includes a portable drinking bottle housing a mixing compartment. The mixing compartment is formed from a rigid perforated material and extends upward into the drinking bottle from its base. The mixing compartment is accessible through an opening in the base of the bottle, and houses one or more agitators. In use, a particulate material is inserted into the mixing compartment chamber with the agitator and liquid is then added to the bottle. The bottle having an internal mixing compartment is shaken to dissolve the soluble components of the particulate material. The liquid is poured or consumed through the top of the bottle. Insoluble constituents of the particulate material are prevented from exiting the drinking bottle through the top. The agitator facilitates efficient dissolution of the soluble components of the particulate material.

A portable bottle having an internal mixing compartment for mixing a powder with a liquid includes a portable drinking bottle housing a mixing compartment. The mixing compartment is formed from a rigid perforated material and extends upward into the drinking bottle from its base. The mixing compartment is accessible through an opening in the base of the bottle, and houses one or more agitators. In use, a particulate material is inserted into the mixing compartment chamber with the agitator and liquid is then added to the bottle. The bottle having an internal mixing compartment is shaken to dissolve the soluble components of the particulate material. The liquid is poured or consumed through the top of the bottle. Insoluble constituents of the particulate material are prevented from exiting the drinking bottle through the top. The agitator facilitates efficient dissolution of the soluble components of the particulate material.

An apparatus and method are provided for storing and dispensing into a liquid a soluble substance, such as a flavoring, a body fuel, a nutritional supplement, a stimulant, a relaxant, an alcohol neutralizer, or a medical drug. A useful application of the subject invention includes a lime flavoring held by a gelatinous artificial lime wedge stored with a beer bottle or can, or attached to a 6-pack or 12-pack carton. The artificial lime wedge may be retrieved from a protective covering and acted upon so it mixes the lime flavoring into the beer when it is inserted into the beer bottle or can. Rather than needing to buy and store a perishable natural lime, and cut it up, an artificial lime wedge may be stored for an extended period of time with a beer vessel and placed in functional contact with the beer at time of consumption.

An apparatus and method are provided for storing and dispensing into a liquid a soluble substance, such as a flavoring, a body fuel, a nutritional supplement, a stimulant, a relaxant, an alcohol neutralizer, or a medical drug. A useful application of the subject invention includes a lime flavoring held by a gelatinous artificial lime wedge stored with a beer bottle or can, or attached to a 6-pack or 12-pack carton. The artificial lime wedge may be retrieved from a protective covering and acted upon so it mixes the lime flavoring into the beer when it is inserted into the beer bottle or can. Rather than needing to buy and store a perishable natural lime, and cut it up, an artificial lime wedge may be stored for an extended period of time with a beer vessel and placed in functional contact with the beer at time of consumption.

Disclosed are bottles for automatically creating custom blends of spirits. The disclosed automatic infinity bottles siphon or transfer a portion of their contents from a blending container, and move them to a sampling container from which a custom blended spirit can be decanted and consumed. The two containers are connected by a siphon tube or other suitable means. The blending container includes a selectively closeable opening for adding or removing liquids, and is configured to store a certain volume of spirits. When such volume is exceeded, the excess spirit will move into the sampling container, where the excess spirit is added to an existing custom blend. One embodiment includes a dip tube for discouraging a bottle user from removing liquid from the blending container. Another embodiment is configured with the sampling container located around the outside of the blending container.

Disclosed are bottles for automatically creating custom blends of spirits. The disclosed automatic infinity bottles siphon or transfer a portion of their contents from a blending container, and move them to a sampling container from which a custom blended spirit can be decanted and consumed. The two containers are connected by a siphon tube or other suitable means. The blending container includes a selectively closeable opening for adding or removing liquids, and is configured to store a certain volume of spirits. When such volume is exceeded, the excess spirit will move into the sampling container, where the excess spirit is added to an existing custom blend. One embodiment includes a dip tube for discouraging a bottle user from removing liquid from the blending container. Another embodiment is configured with the sampling container located around the outside of the blending container.

A mixing bottle has a container having an open top area. A cover is removably coupled to the container and covering the open top area. A first opening is formed in a top surface of the cover to dispense the contents stored within the container. A second opening is formed in a center area of the top surface of the cover. A mixing device is positioned within the container and extends out of the second opening in the cover.

A mixing bottle has a container having an open top area. A cover is removably coupled to the container and covering the open top area. A first opening is formed in a top surface of the cover to dispense the contents stored within the container. A second opening is formed in a center area of the top surface of the cover. A mixing device is positioned within the container and extends out of the second opening in the cover.

A bottle includes a base, neck that defines an aperture, and a body. The bottle has at least one indent in the body that projects into an interior of the bottle and extends around at least part of a circumference of the body. This at least one indent is configured to agitate a substance contained in the bottle. For example, the bottle may contain a powder, such as protein powder, and the at least one indent helps mix the powder with a liquid. In an example, two indents are used in the bottle.

A bottle includes a base, neck that defines an aperture, and a body. The bottle has at least one indent in the body that projects into an interior of the bottle and extends around at least part of a circumference of the body. This at least one indent is configured to agitate a substance contained in the bottle. For example, the bottle may contain a powder, such as protein powder, and the at least one indent helps mix the powder with a liquid. In an example, two indents are used in the bottle.