In a vacuum heat insulating double walled container 1, adsorbent blocks 30 are formed in block, and each of the adsorbent blocks 30 disposed on the peripheral surface of a sample storage container 25 is placed on a partition plate 27. Moreover, an inner container 10 is hang in an outer container 3 using a connecting tube 20 formed of a thin material having an uneven outer peripheral surface, and a heat insulating tube 40 is disposed on the inner surface of the connecting tube 20. Further, as to a workpiece carrier 50 as a fixing device, a carrier guide 52 is in close contact with the heat insulating tube 40, and a plate-like portion 54 and a workpiece storage portion 51 are disposed in a non-contact state with respect to the sample storage container 25. As a result, it is possible to suppress the amount of heat transferred from the inner container 10 to the outer container 3, and vibration and impact is less likely to applied to a sample in the workpiece storage portion 51 even if an external force such as impact is applied to the vacuum heat insulating double walled container 1.

A drinking vessel comprises a bottle, a cup, and a cup lid. The bottle has a bottle base, a bottle mouth, and a bottle wall extending between the bottle base and the bottle mouth, the cup comprises a cup base, a cup mouth, and a cup wall, a first face of the cup base and an inner face of the cup wall define a cup volume, the cup volume is suitable for holding a potable beverage, and the inner face of the cup wall extends from the cup base to a free edge of the cup wall which defines the cup mouth. The cup lid is configured to reversibly engage with one or both of the free edge of the cup wall and the portion of the cup wall adjacent the free edge, and the cup lid is configured to close the cup mouth. The cup base and cup wall are so configured that the bottle base and at least a portion of bottle wall fit into the cup volume with the inner face of the cup wall in close proximity to the portion of a bottle wall. The cup further comprises a lid storage recess in which the lid storage recess is defined by a second face of the cup base and an inner face of a recess wall, the second face of the cup base faces away from the cup volume, and the inner face of the recess wall extends from the second face of the cup base away from the cup volume to a recess wall free edge, the recess wall free edge defines a recess mouth. The cup lid comprises a cup wall engaging means, and drinking aperture, and the cup lid and lid storage recess are so configured that the cup lid reversibly engages with the cup lid storage recess so that the cup lid is reversibly retained in the lid storage recess.

The present disclosure relates to a bottle with a detachable housing and corresponding storage compartment. Indeed, the disclosed bottle can include a receptacle formed within an exterior side surface (or sidewall) or as part of the bottle lid. Within the receptacle, the disclosed bottle can integrate a detachable housing with the bottle via one or more attachment mechanisms (e.g., magnets). For instance, the disclosed bottle attaches the detachable housing to a receptacle sidewall such that the disclosed bottle can maintain a generally uniform profile across the exterior side surface. The detachable housing can include a storage compartment for storing and/or securing one or more items, such as cutlery, medicine, personal hygiene items, etc.

An insulating container can be configured to retain a volume of liquid, and include a first inner wall having a first end having an opening extending into an internal reservoir, and a second outer wall forming an outer shell. The opening can be sealed by a closure, the closure having an upper portion with a handle that has a circular curvature equal to the cylindrical portion of the closure. The closure may also have a lower portion that is joined to the upper portion by an injection molded polymer element. The closure may also be in the form of “flip” type of closure such that the lid can be selectably opened or closed by the user by rotating a flip closure into either the opened or closed position. The closure may also be a two-part lid having a lower cap that may be configured to be removably-coupled to the container and an upper cap that may be configured to be removably-coupled to the lower cap.

The present invention relates to a novel customizable bottle or container. The outer surface of the bottle or container has a plurality of ridges, recesses or other delineations positioned around the outer surface. Each adjacent pair of ridges, recesses or other delineations creates a distinct region. A plurality of flexible or removable bands is provided with the bottle or container that are slid on distinct regions positioned between the ridges, recesses or other delineations. The flexible bands come in various colors and designs and decorate the distinct areas to personalize the bottle or container.

Provided are vacuum-insulated articles that comprise an evacuated space disposed between first and second walls and a reflective material disposed within the evacuated space. Also provided are methods of fabricating such articles.

A portable thermal insulated apparatus for cooling or heating items stored therein. The thermal insulated apparatus includes a container having a lid that removably secures to an open first end thereof and a reservoir unit that removably secures to an open second end. The container includes an inner tube and an outer tube forming an insulated double-wall sealed at both ends in which the lid and reservoir unit can be connected thereto. The reservoir unit removably receives a thermal unit that provides cooling or heating to the contents of the container when affixed thereto. The thermal unit is separable from the reservoir unit, such that the thermal units are interchangeable as needed. In some embodiments, the thermal unit is directly securable to the lid and the second end of the container is permanently sealed.

The present invention relates to a portable thermal container (1) for consumer products (2′) comprising at least a storing chamber (2) of the consumer products (2′) and at least a reaction chamber (4) of a reagent component (5′) and a of a reactive component (5″), wherein the reaction chamber (4) extends substantially entirely along the dimension of the largest dimension of the portable thermal container (1) and the storing chamber (2) is arranged side-by-side to the reaction chamber (4) to maximize the thermal exchange between the reaction chamber (4) and the storing chamber (2) in an homogeneous way, and the reaction chamber (4) comprises at least a storing portion and at least an expansion portion, wherein the total volume of said expansion portions is greater than the total volume of said storing portions to allow the safe expansion of the chemical reaction gases in said reaction chamber (4).

A cellphone couplable container assembly having a portable and reusable container operably configured to store liquid contents within an internal cavity while simultaneously retaining a cellphone or other similar electronic device magnetically selectively attached to the exterior of the portable container. In one embodiment, a plurality of magnets with ferromagnetic properties are disposed on the outer shell of the cellphone couplable container assembly and are proportionately shaped and sized to correspond to a cellphone magnet disposed on a user's cellphone. Additional protrusions may provide additional structural support for a more secure of the cellphone to the cellphone couplable container assembly.

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.