Apparatuses, systems, and methods are presented for nesting lid containers. An apparatus includes a first container that includes a bottom, at least one container side wall located perpendicular to a first surface of the bottom and extending from the first surface of the bottom to an open top to form a container, at least one divider side wall configured to partition the container into a plurality of sections, and a suction-type element located on a second surface of the bottom opposite the first surface, the suction-type element configured to selectively adhere the first container to a surface. An apparatus includes a second container that is configured to receive the at least one container side wall of the first container and selectively be secured to the first container such that the second container acts as a lid for the first container.

A method for making a container includes forming a first cavity of a container by shaping an inner wall so that a first surface of the inner wall defines the first cavity; forming a second cavity of the container by shaping an outer wall so that a third surface of the outer wall surrounds a second surface of the inner wall such that together the third and second surfaces define the second cavity; and connecting the inner and outer walls together. The method then includes forming a hole through the outer wall to expose the second cavity to the outside ambient environment and then applying an enamel coating, while preventing the enamel coating from being deposited in the hole. After the enamel coating is applied, the method includes heating the container to glaze the enamel coating and fix the coating to the one or more surfaces.

Various embodiments concern a handheld beverage container. The beverage container includes a vacuum chamber located radially between an inner tubular sidewall and an outer tubular sidewall and axially between an inner bottom wall and an outer bottom wall. The combined heat capacity of both of the inner tubular sidewall and the inner bottom wall can be greater than the combined heat capacity of both of the outer tubular sidewall and the outer bottom wall such that a vacuum insulated thermal reserve is formed. Heat can be exchanged between the thermal reserve and the beverage to stabilize the temperature of the beverage to counteract ambient cooling/heating of the beverage. Various embodiments concern a cap that seals with a disposable cup that is held within a container body, allowing a beverage to be contained in the disposable cup while being insulated by the container body, with or without a thermal reserve.

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.

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.

The invention relates to inner covering for containers, the objective of which is to reduce the impact of temperatures on the inside thereof and to protect against the moisture known as “container rain”. The covering is formed by a rectangular prismatic case (1) in the horizontal position, made from a laminated composite having several layers, with two smaller bases and a series of bars (4) arranged in fixing elements (3) corresponding to two or more edges of the smaller bases, characterized in that the bars (4) are formed by elements that can be inserted into one another.

The present invention aims at providing a low-temperature storage container that is highly insulated and can therefore reduce the amount of cooling medium consumption. The low-temperature storage container of the present invention includes a cylindrical container body having an opening and a storage compartment, and a plurality of holding shelves provided in the storage compartment, on which storage trays for holding storage objects are placed. The storage compartment includes a plurality of holding zones arranged in a circumferential direction of the container body, where the storage trays are held, and at least one passage zone where the storage trays pass. The holding shelves are configured as parts of a plurality of rack units that are sections arranged in a circumferential direction of the container body.

An insulated container assembly includes an outer box defining a box cavity; and an insulated insert positioned within the box cavity, the insulated insert including a pair of opposing side panels including a first side panel and a second side panel; and a pair of opposing main panels including a first main panel and a second main panel, the first main panel connected to the first side panel by a first crease line, the second main panel connected to the first side panel by a second crease line, the second main panel connected to the second side panel by a third crease line, the pair of opposing side panels and the pair of opposing main panels defining a top end and a bottom end of the insulated insert, the first crease line, the second crease line, and the third crease line extending from the top end to the bottom end.

A lid for a container, such as a beverage cup, is provided. The lid includes a top wall for covering an opening of the container. The top wall may include an inner layer and an outer layer. The inner layer may include a first perforation line defining an openable sip hole area. The outer layer may be connected to the inner layer at the openable sip hole area. The outer layer may include a tearing off area that may be torn off and result in the opening of the first perforation line to create a sip hole in the inner layer.

The present application provides a unique way for storing biologics, perishables, food, drinks in a preservation and transportation system. The portable preservation system comprising a main body comprising an outer shell having at least one docking compartment and a main compartment. A cooling unit placed in the main compartment having a supply line and a return line wherein the supply line is connected to a supply manifold. At least one valve wherein the valve is connected to the supply manifold. At least one supply connection port wherein the supply connection port is coupled to at least one opposing port which supplies coolant to an external system having an inlet and outlet wherein the outlet is connected to at least one return connection port.