Carrier for carrying products, the carrier comprising: a plurality of thermally insulated walls (10); a thermally insulated base (20); a liner (30) defining at least part of an interior surface of the carrier; a cooling element (50), wherein the cooling element (50) is arranged to be located behind the liner (30).

The present disclosure relates to a portable cold storage box having at least six identical square cold storage pieces capable of being put together to form a cuboid or cubic box. A through-hole is provided in the middle of each square cold storage piece. The periphery of each through-hole has one surface formed with a recess and an opposite surface formed with a step-shaped protrusion which can be snapped in a corresponding recess. Engageable tooth-shaped teeth are formed on opposite sides of the square cold storage pieces. A refrigerant is stored inside the square cold storage pieces in a sealed manner. The portable cold storage box of the present disclosure is advantageous in that it does not require a power source. It is easy to assemble, and after disassembling, the disassembled pieces can be quickly stacked up without being scattered around.

A bottle storage includes: a housing portion that houses a bottle therein; a cooling-warming portion (cooling-warming devices) that is provided around the housing portion; a rotation portion (rotation motor) that rotates the bottle housed in the housing portion; an image capture portion that captures an image of the bottle housed in the housing portion; a controller that controls the bottle rotation performed by the rotation portion and the image capture performed by the image capture portion, based on the bottle image captured by the image capture portion; an information manager (storage manager) that identifies at least a brand of the bottle, based on the bottle image captured by the control of the controller; and an output portion (display portion) that outputs at least one of the brand identified by the information manager and relevant information regarding the identified brand.

The present application generally relates to devices and methods for transporting items, and it more specifically relates to insulated carriers for use in delivering temperature-controlled items such as perishable food.

A refrigeration bin is disclosed. The bin includes a product display area defined by four side walls, a floor, and an access opening. Also included are an air supply vent on each of a first opposing set of the side walls, and an air return vent near each of a second opposing set of the side walls, in which the second opposing set of the side walls are adjacent to the first opposing set of the side walls. There is a return air duct, a first end of the return air duct in air flow communication with the air return vent, and a supply air duct, the first end of the supply air duct in air flow communication with the air supply vent, allows air flow in the display area. A cooling device is included for cooling air before it enters the supply air duct. The refrigeration bin can be useful to showcase foodstuffs in grocery stores and the like.

In some embodiments, systems and methods are provided that limit the change in temperature and/or control a temperature of products during delivery. Some embodiments provide systems to limit temperature changes of products during transit, comprising: a plurality of insulation; a plurality of temperature packs; a product delivery control circuit that: obtains an identification of each of multiple products to be transported; obtains transport temperature thresholds corresponding one of the multiple products; obtains transport parameters comprising a predicted transport duration and expected environmental conditions; determines quantities of insulation to be positioned at each of multiple different insulation locations about the multiple products and number of temperature packs to be positioned at cooling locations about the multiple products; and determines an ordered arrangement of each of the multiple products relative to the temperature threshold of each of the multiple products, the insulation locations and the cooling locations.

A first aspect the present invention provides a thermally insulated container comprising a lid and a main body moulded from a single piece of expanded foam with outwardly tapering inner walls, necessitated by the moulding process. The container is arranged to be closed by the lid so that cool packs in the container extend from a base inside the main body to inside the lid, wherein the inner surface of the walls of the lid are tapered such that positioning the lid on the main body, with the cool packs arranged around the inner surfaces of the walls, causes the cool packs to be aligned so that they extend vertically, perpendicular to an inner surface of the base of the main body. This permits regular rectangular cool packs to be used to assist assembly and to provide a regular parallel sided space inside of the cool packs, in which a product to be shipped may be housed. According to a second aspect of the invention there is provided a method of moulding such a container, wherein the provision or absence of an insert on the mould tool permits the container to have, or not to have, provision to accommodate an insulation panel layer, without altering the inner or outer dimensions of the container formed by the method.

A mobile vaccine carrier and method for operating the carrier. The carrier includes a housing having a lid preferably hinged to a base member, a vaccine storage member disposed within the housing and defining a storage space for a plurality of vaccine containers; and a cooling element disposed within the housing. The vaccine storage member further includes an inner container defining the storage space and having an inlet opening for placing and removing vaccine containers, a movable vaccine container holder and a cover member disposed on the lid. The vaccine container holder has an abutment portion abutting against an outer portion of the inner container so that the inlet opening is covered by the vaccine container holder and at least a part of the cover member protrudes into the storage space when the lid is in a closed position.

Systems and devices cool content of individual beverage containers without sacrificing portability and cooling performance, and/or maintaining beverage containers cold. Exemplary implementations provide container having enclosed vertical double-wall structure with integral horizontal base defining interior space within enclosed vertical double-wall structure, or having wall structure formed from sheet of flexible material folded to form base and sealed along opposite sides of sheet to define interior space within wall structure and also having interior pocket formed by interior wall attached to interior surface wall structure. Interior space within wall structure is capable of accommodating at least one beverage container. Cooling material is sealed inside the double-wall structure, or removably placed inside interior pocket, to cool and/or maintain cold content of beverage container placed in interior space of container. Method includes providing container including wall structure accommodating cooling material and removably placing cooling material said structure.

Shipping systems for temperature-sensitive materials and methods of making and using same. In one embodiment, the shipping system includes a cooler base and a lid. The base includes an inner portion and an outer portion. The inner portion includes a thermal insulation unit including a bottom wall and four side walls. A thermally-conductive member is positioned on the bottom wall. A polymeric bag encapsulates the thermally-conductive member and some of the thermal insulation unit. The outer portion includes thermally-insulating material and defines an opening. The inner portion is permanently bonded to the outer portion, with cavities defined therebetween. A product box is placed in the inner portion directly over the polymeric bag and the underlying thermally-conductive member. First temperature-control members are disposed within the inner portion, with at least one temperature-control member directly over the polymeric bag and the underlying thermally-conductive member. Second temperature-control members are disposed within the cavities.