A device for use with a travel mug for storing and chilling at least one vial is disclosed. The device generally comprises at least a first cylindrical portion having a top end and a bottom end, wherein the top end comprises at least one recessed portion for storing the at least one vial and a second cylindrical portion having a top end and a bottom end. In one embodiment, the device comprises a rod having a first end connected to the bottom end of the first cylindrical portion, and a second end connected to the top end of the second cylindrical portion.

A device for use with a travel mug for storing and chilling at least one vial is disclosed. The device generally comprises at least a first cylindrical portion having a top end and a bottom end, wherein the top end comprises at least one recessed portion for storing the at least one vial and a second cylindrical portion having a top end and a bottom end. In one embodiment, the device comprises a rod having a first end connected to the bottom end of the first cylindrical portion, and a second end connected to the top end of the second cylindrical portion.

Provided is a tumbler capable of controlling a temperature of an accommodated drink. The tumbler includes an inner cup for accommodating a drink, a frame which protects the inner cup, a heat conduction unit of which heat is exchanged with the inner cup through a lower surface and an outer circumferential surface of the inner cup to cool or heat the drink of the inner cup, and a control unit configured to control operation of the heat conduction unit. The thermal efficiency and ease of use of the tumbler are improved due to the configuration of the tumbler.

Provided is a tumbler capable of controlling a temperature of an accommodated drink. The tumbler includes an inner cup for accommodating a drink, a frame which protects the inner cup, a heat conduction unit of which heat is exchanged with the inner cup through a lower surface and an outer circumferential surface of the inner cup to cool or heat the drink of the inner cup, and a control unit configured to control operation of the heat conduction unit. The thermal efficiency and ease of use of the tumbler are improved due to the configuration of the tumbler.

A container has a chamber and a phase change material (PCM) that can remove heat from the chamber. The container can have a thermal conductor movably coupled in the container between a retracted position and a deployed position, where in the deployed position, while on a heat sink unit, the thermal conductor can draw heat from the PCM to solidify or charge the PCM, which can then maintain the chamber in a chilled state for a prolonged period of time. The container can have one or more heating elements in thermal communication with the chamber and operable to add heat to the chamber to increase or maintain a temperature of the chamber in a heated state for a prolonged period of time.

Example aspects of an insulated box assembly and a method of assembling an insulated box assembly are disclosed. The insulated box assembly can comprise a plurality of outer lateral sidewalls, the outer lateral sidewalls defining an inner surface, the inner surface defining an inner cavity; a plurality of inner lateral sidewalls received in the inner cavity, the inner lateral sidewalls defining an outer surface; and a monolithic sidewall liner received in the inner cavity between the outer lateral sidewalls and the inner lateral sidewalls, the sidewall liner defining a liner outer surface and a continuous, uninterrupted liner inner surface opposite the liner outer surface, the liner outer surface facing the inner surface of the outer lateral sidewalls, and the liner inner surface facing the outer surface of the inner lateral sidewalls.

Example aspects of an insulated box assembly and a method of assembling an insulated box assembly are disclosed. The insulated box assembly can comprise a plurality of outer lateral sidewalls, the outer lateral sidewalls defining an inner surface, the inner surface defining an inner cavity; a plurality of inner lateral sidewalls received in the inner cavity, the inner lateral sidewalls defining an outer surface; and a monolithic sidewall liner received in the inner cavity between the outer lateral sidewalls and the inner lateral sidewalls, the sidewall liner defining a liner outer surface and a continuous, uninterrupted liner inner surface opposite the liner outer surface, the liner outer surface facing the inner surface of the outer lateral sidewalls, and the liner inner surface facing the outer surface of the inner lateral sidewalls.

A roto-molded aerated and insulated container for aquatic live bait with a seamless base into which is molded an air pump and a rechargeable battery receiver. Also molded into the base is a tubing channel interconnecting the air pump and an air stone positioned centrally in the bottom of the container. A lid hinged to the base has a gasket with air vent cut-outs sealed to a ridge formed on the rim of the base and with an ice pack attached to an underside of the lid with a strainer basket attached with straps.

A roto-molded aerated and insulated container for aquatic live bait with a seamless base into which is molded an air pump and a rechargeable battery receiver. Also molded into the base is a tubing channel interconnecting the air pump and an air stone positioned centrally in the bottom of the container. A lid hinged to the base has a gasket with air vent cut-outs sealed to a ridge formed on the rim of the base and with an ice pack attached to an underside of the lid with a strainer basket attached with straps.

A device for conditioning products intended to maintain the products within a determined temperature range, including a first box of parallelepiped shape; a second box of parallelepiped shape. The second box having overall dimensions less than the first box is intended to be positioned inside the first box in a removable manner. At least one thermal stabilisation element is intended to be positioned in a space formed between the first box and the second box. A temperature monitoring system includes a data monitoring unit and at least one temperature probe coupled to the monitoring unit. The monitoring unit is intended to be fixed onto the first box and the temperature probe is intended to be inserted into the second box. The second box includes a slot for positioning the temperature probe. The positioning slot maintains the temperature probe in position by compression.