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.

Disclosed herein are systems for regulating a temperature of a drink, the system comprising: a receptacle system defining a recess for receiving a drinking vessel, including: an outer receptacle, and an inner receptacle that is removably couplable to the outer receptacle, wherein a cavity is defined between the outer receptacle and the inner receptable, the receptacle system comprising a top end portion, a bottom end portion, an inner wall portion, and an outer wall portion, the top end portion defines a top opening of the recess.

An insulated container including a container assembly and a gel assembly. The container includes a first sleeve, second sleeve, and outer sidewall. The container includes a cavity to receive a beverage therein. The second sleeve extends about the outer circumference of the first sleeve. A spacing is defined between the first sleeve and the second sleeve. A gel layer of the gel assembly is received within the spacing. The gel layer, when the container is cooled, is cooled and provides cold energy to the beverage held within the container. Between the second sleeve and the outer sidewall exists a vacuum spacing. The vacuum spacing provides vacuum insulation to ensure that heat does not reach the first sleeve through direct contact when being cooled by the gel layer. Allowing the beverage to be cooled for extended periods of time within the insulated container.

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.

The present utility model relates to the field of beverage container fixing, in particular to a multi-function fixing kit which comprises a gasket main body and a snap ring main body. A circumferential diameter of the snap ring main body is 80.5mm, a top of the snap ring main body is provided with a through hole with a circumferential diameter of 56.5mm, and a bottom of the snap ring main body can be movably connected with a storage container. The gasket main body can be embedded with an adaptive storage container. The gasket main body is divided into a first layer structure, a second layer structure and a third layer structure from top to bottom. A top of the first layer structure is movably connected with a 12oz beverage can main body, a top of the second layer structure is movably connected with a 12oz beer bottle main body, and a top of the third layer structure is movably connected with a 12oz slim beverage can main body. A top of a placing device is movably connected with a 16oz beverage can. The device matches and fixes top and bottom of the beverage container through the snap ring main body and the gasket main body, and the gasket main body can fix various types of beverage containers through the internal layered structure.

Disclosed herein are systems for regulating a temperature of a drink, the system comprising: a receptacle system defining a recess for receiving a drinking vessel, including: an outer receptacle, and an inner receptacle that is removably couplable to the outer receptacle, wherein a cavity is defined between the outer receptacle and the inner receptable, the receptacle system comprising a top end portion, a bottom end portion, an inner wall portion, and an outer wall portion, the top end portion defines a top opening of the recess.

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 container lid and a container are provided. A container lid for sleeving on a drink bottle, comprising an annulus-shaped lid body and a flexible snap ring, and the lid body includes a pilot hole, which penetrates through the lid body; the flexible snap ring comprises an assembly portion and a clamping portion, wherein the assembly portion encircles around an outer surface of the lid body, and a part of the flexible snap ring is extended along a radial direction of the lid body to define the clamping portion, and the clamping portion is capable of penetrating through the pilot hole from the outer surface of the lid body, and abutting against an outer surface of the drink bottle.

A multi-lid heat-insulating cup is provided, including a heat-insulating cup body with an accommodating cavity and a cup lid detachably connected to the heat-insulating cup body, the cup lid being provided with a drinking mouthpiece and a drinking mouthpiece lid being disposed at the drinking mouthpiece, where an inner top surface of the cup lid is provided with a ring-shaped sealing gasket; and with the cup lid covering an opening end of the heat-insulating cup body, the sealing gasket is capable of sealing both the opening end of the heat-insulating cup body and a top periphery of a pop can placed in the accommodating cavity, and a beverage outlet of the pop can is in communication with the drinking mouthpiece. The cup lid which can cover an opening of the heat-insulating cup body is disposed to increase a heat insulation effect.

An adapter is used to couple a beverage container to a holding container. The adapter has a ridge point, a top portion, and a bottom portion. The ridge point is designed to rest upon a rim of the holding container. The top portion includes a top aperture and a sloped side disposed between the ridge point and the top aperture. The bottom portion includes a bottom aperture and a side wall disposed between the ridge point and the bottom aperture. The top aperture's size is related to the size of the beverage container, while the bottom aperture's size is related to the size of the holding container.