A retaining member for use with a vacuum-insulated vessel is described. The retaining member may include a body and a deformable member. The deformable member may have a first layer and a second layer extending from the first layer to a resilient end of the second layer. The resilient end of the second layer may define an opening of the second layer and the opening of the second layer may be aligned with a first aperture of the body and a second aperture of the body, to receive and securely hold a bottle such as a wine bottle within the opening, the first aperture, and the second aperture. The second layer may be resiliently flexible between a first position and a second position of a peripheral edge of the resilient end, to receive and retain bottles having various sizes.

An insulating holder is provided for a conventional disposable beverage cup. The insulating holder includes an upward-facing flange that supports the beverage cup at its peripheral bead and without interfering with a disposable lid that may be fitted to the cup by snap fit over the peripheral bead. The insulating holder further includes a retaining mechanism that holds the disposable cup and lid in the holder without interfering with the ability of the user to drink from the cup. The insulating holder further includes means to facilitate insertion of the cup into the holder without requiring the user to hold the cup either by its bead or by the lid.

A thermally insulated cooler for keeping canned drinks cold has a tubular shape. Cans are stacked in the tube one atop the other, and the inner diameter of the tube fits closely around the circumference of the cans. The length of the cooler can be sized to accommodate various numbers of cans. The cooler is of double wall construction, and the space between the walls is either a vacuum or a thermally insulating material. A coil spring in the bottom of the tube biases the cans through the upper end of the tube. A retaining ring mounted to the open end of the tube has an opening with radially inwardly projecting tabs that grip a can as the spring feeds it through the opening. The tabs hold the can partially protruding from the tube until a user affirmatively removes the can from the tube.

A container enclosure for removably enclosing a container, the enclosure including a base component and a cap component configured to be removably coupled to the base component. The base component includes an outer shell having a base wall and a cylindrical sidewall extending upwardly therefrom, and an interior sleeve configured to be inserted within the outer shell. Further, the cap component includes an opening and a sliding tab configured to transition between a rearward position and a forward position to open and close the opening, respectively.

Beverage systems and kits and methods of using the same. A beverage system of the present disclosure includes a container configured to retain a beverage, the container having an outer wall and an internal threaded section above a non-threaded inner wall section; a threaded gasket having a threaded portion and an outer curved profile, the threaded portion configured to engage the internal threaded section of the container when coupled thereto; and a lid having an extension portion extending from a cover portion, the extension portion having a seal positioned thereon, the seal configured to engage the non-threaded inner wall section of the container when coupled thereto.

A thermal container for beverage bottles, comprised by the cylindrical body (1), with two lateral pins (2 and 3), and the lateral pins (2 and 3) sit in the slots (6) existing in both arms of the fork (7), and this fork (7) is attached by pressure to the base (8), through a coupling (9), inside the cylindrical body the castanhas are inserted (10), the container has an circular coupling (13) with a cap (15) with an opening (16), so it is possible to place a bottle inside the duct (11) and its neck is outside the thermal container, passing through the cap (15) opening (16).

A bottle holder for various size bottles that is designed to keep the bottle and liquid cool, enable the user to pour from the bottle while the bottle is in the holder, and protect the bottle from breaking in case of accident. The bottle holder includes a body, comprised of an outer shell and an inner shell, as well as a lid that may be attached to the body such as by screwing it on or by friction. The outer shell preferably has one or more features that enable the user to maintain a better grip. The inner shell and lid have different features to hold the bottle securely. Advantageously, the body and lid provides thermal protection.

A collapsible beverage insulator and methods of using the same are disclosed. The collapsible beverage insulator can have one or more collapsible zones, each of which can move between a collapsed state and an expanded state, optionally including partially collapsed states in-between. The collapsible beverage insulator can have a first end with a first opening sized to receive common beverage containers. The collapsible beverage insulator can be separated from the beverage container to be used in games. The collapsible beverage insulator can be tossed and the way the collapsible beverage insulator lands (e.g., on an end, on a particular end, or on its side) and how the collapsible zones collapse can be used to determine points to be awarded to the player.

A container includes a cup formed to include and interior region and an insulated sleeve. The insulated sleeve is coupled to an outer surface of the cup.

A container holder including a body portion having a first end, a second end, an inner surface, and an outer surface, wherein an interior region of the body portion is defined as a generally axial opening between the first end and the second end, and at least one retaining element disposed along the inner surface of the body portion, wherein a container is received within the generally axially opening of the body portion, and the at least one retaining element exerts a force against the container to retain the container within the generally axial opening. Furthermore, an associated method is also provided.