Shipping container for a temperature-sensitive payload. In one embodiment, the shipping container includes an insulated base having a bottom wall and four side walls. A first thermally conductive member is positioned on the bottom wall. A payload box is centered on top of the first thermally conductive member, and four frozen packs, each having a thickness matching the height of the payload box, are positioned along the four sides of the payload box. An insulating frame may be placed around the payload box to keep the frozen packs from directly contacting the payload box. A second thermally conductive member is positioned on top of the payload box and the four frozen packs, and an insulated lid is positioned on top of the second thermally conductive member and the four side walls of the base. One, both or neither of the thermally conductive members may be removed to optimize seasonal suitability.

The present application is directed to cooling containers that rely on refrigerants. The cooling container is able to efficiently keep items cool by adjusting the input and output of cool air inside the cooling container. For example, storage area no. 1 can keep the refrigerants used for keeping insulated items cool. Plank 1 is parallel to the storage area 1. Plank 2 is parallel to plank 1 and storage area no. 2 storing insulated items therein. The planks 1 and 2 are perpendicularly placed above and below a horizontal plane. Planks 1 and 2 can be adjusted to be higher or lower, so as to adjust the distance therebetween. This allows more efficient control of the airflow of the cool air before the air goes into storage area 2.

The present application is directed to cooling containers that rely on refrigerants. The cooling container is able to efficiently keep items cool by adjusting the input and output of cool air inside the cooling container. For example, storage area no. 1 can keep the refrigerants used for keeping insulated items cool. Plank 1 is parallel to the storage area 1. Plank 2 is parallel to plank 1 and storage area no. 2 storing insulated items therein. The planks 1 and 2 are perpendicularly placed above and below a horizontal plane. Planks 1 and 2 can be adjusted to be higher or lower, so as to adjust the distance therebetween. This allows more efficient control of the airflow of the cool air before the air goes into storage area 2.

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.

An evaporator for a constant-temperature high-humidity storage chamber includes a cold-air temperature-humidity change unit having plurality of crushed-ice heat exchangers and a blower device to blow cold air into the cold-air temperature-humidity change unit; the plurality of crushed-ice heat exchangers each has a blade shape the width of which, in direction perpendicular to the airflow direction of the cold air, is large at the head portion and decreases toward the tail portion; the crushed-ice heat exchangers adjoining one another in the direction perpendicular to the airflow direction of the cold air such that the blade head portion of each crushed-ice heat exchanger adjoins the blade tail; thereby increasing surface area and volume of the ice forming the blade shape by crushed ice piled in the evaporator, and increasing the stability of the chamber temperature and amount of evaporation.

An object is to provide a storage container including latent heat storage materials that provide a high cold insulation effect. A storage container 401 has an electric cooling function and stores an object. The storage container 401 includes at least one storage chamber 100 that stores the object; a first latent heat storage material A that is disposed in the storage chamber 100 and has a predetermined phase change temperature; and a second latent heat storage material B that is disposed in the storage chamber 100 and has a phase change temperature higher than the phase change temperature of the first latent heat storage material A.

An object is to provide a storage container including latent heat storage materials that provide a high cold insulation effect. A storage container 401 has an electric cooling function and stores an object. The storage container 401 includes at least one storage chamber 100 that stores the object; a first latent heat storage material A that is disposed in the storage chamber 100 and has a predetermined phase change temperature; and a second latent heat storage material B that is disposed in the storage chamber 100 and has a phase change temperature higher than the phase change temperature of the first latent heat storage material A.

A refrigerator includes a temperature-controlled drawer within a fresh food compartment. The drawer includes a temperature dampening member in thermal communication with a freezing air source and an interior or the drawer. The member is made of a thermally conductive material. In use, heat is conducted away from the interior of the drawer through the temperature dampening member in communication with the freezing air source. Thus, freezing of a foodstuff within the drawer is minimized or prevented, a temperature variance within the drawer is minimized, and humidity within the drawer is not adversely affected by dry freezing air source.

A container assembly has a soft-sided insulated wall structure. It has one or more internal chambers in which to place objects to be kept cool or warm. A first closure member governs access to the container assembly. The wall structure includes one or more accommodations in which to place a warming or cooling element, such as an ice pack. The accommodations in the outside walls are externally accessible without opening the main chamber, and have their own closure, and may be insulated. The inside is a thin web through which to transfer heat. An internal partition divides the container assembly into two chambers. The partition may have a thermal storage element. The container may be a collapsible foldable bag; a tote bag; back pack or a non-collapsible lunch box. The thermal storage elements may have a flat disk shape. The disks slide sideways into place in the respective accommodations.

A container assembly has a soft-sided insulated wall structure. It has one or more internal chambers in which to place objects to be kept cool or warm. A first closure member governs access to the container assembly. The wall structure includes one or more accommodations in which to place a warming or cooling element, such as an ice pack. The accommodations in the outside walls are externally accessible without opening the main chamber, and have their own closure, and may be insulated. The inside is a thin web through which to transfer heat. An internal partition divides the container assembly into two chambers. The partition may have a thermal storage element. The container may be a collapsible foldable bag; a tote bag; back pack or a non-collapsible lunch box. The thermal storage elements may have a flat disk shape. The disks slide sideways into place in the respective accommodations.