A refrigerated sales cabinet (20a) includes a cabinet body (22a) providing a refrigerated sales space for supporting refrigerated goods to be presented therein; a door frame (21a) having a top post (34a), a bottom post (36a), and at least two upright posts (32a); wherein at least one of the posts (32a, 34a, 36a) comprises an air duct allowing to conduct air through the post (32a, 34a, 36a), and wherein at least one fan (18) is fluidly connected to the air duct in order to convey ambient air through the air duct.

A refrigerated enclosure system includes an enclosure with an interior region defined between a top portion and a bottom portion. A top rail is attached to the top portion and includes an upper hinge mount. A bottom rail is attached to the bottom portion and includes a lower hinge mount. A central axis of the lower hinge mount is positioned relative to a central axis of the upper hinge mount to enable a door secured to the upper hinge mount and the lower hinge mount to open and close relative to an opening of the enclosure. The refrigerated enclosure system also includes a first insulating layer positioned on a back side of the top rail and within the interior region and a second insulating layer positioned on a back side of the bottom rail and within the interior region. The first and second insulating layers inhibit a transfer of heat into the enclosure.

A refrigerated display case includes a frame, a door, and a lateral flow barrier. The frame includes a first mullion and a second mullion. The frame defines a common refrigerated zone. The door is hingedly mounted to the first mullion. The door is configured to selectively interface with the second mullion. The lateral flow barrier is coupled to one of the first mullion and the second mullion. The lateral flow barrier extends into the common refrigerated zone. The lateral flow barrier partially separates the common refrigerated zone into an first sub-compartment proximate the door and bounded by the lateral flow barrier and an second sub-compartment opposite the first sub-compartment. The lateral flow barrier is not thermally insulating.

An apparatus and a method are provided for a controlled atmosphere display case for prolonged storage of plant-based contents within the case. The controlled atmosphere display case includes a rigid housing having an interior cavity. An inert gas supply provides an inert gas to the interior cavity. The inert gas may be nitrogen, or a combination of inert gases that includes nitrogen. An inlet valve conveys the inert gas into the interior cavity. A vacuum pump and the inert gas supply cooperate to create a nitrogen flush that replaces oxygen-rich air within the interior cavity with nitrogen gas. A pressure gauge actuator regulates the concentration of nitrogen gas within the interior cavity. A refrigeration unit controls temperature and moisture within the interior cavity. The nitrogen flush advantageously extends the shelf life of plant-based produce that may be stored within the interior cavity.

A refrigerated enclosure system includes an enclosure with an interior region defined between a top portion and a bottom portion. A top rail is attached to the top portion and includes an upper hinge mount. A bottom rail is attached to the bottom portion and includes a lower hinge mount. A central axis of the lower hinge mount is positioned relative to a central axis of the upper hinge mount to enable a door secured to the upper hinge mount and the lower hinge mount to open and close relative to an opening of the enclosure. The refrigerated enclosure system also includes a first insulating layer positioned on a back side of the top rail and within the interior region and a second insulating layer positioned on a back side of the bottom rail and within the interior region. The first and second insulating layers inhibit a transfer of heat into the enclosure.

A supercooling refrigerator (1000) including: a refrigerator body (100); a door (200) for opening and closing one side of the refrigerator body (100); an accommodating portion (400) provided inside the refrigerator body (100) and seated with an object (M) to be stored; a cooling duct (600) including a fan for taking in air in the refrigerator body (100) and discharging the air, and an evaporator (630) for cooling the air discharged from the fan; and a cool air supply duct (700) formed with a cool air discharge port (710) through which the air cooled through the cooling duct (600) is discharged into the refrigerator body (100), the fan being a cross flow fan (620) including a plurality of discs (622), and a plurality of blades (623) disposed between the discs (622) along outer circumferential surfaces of the discs (622).

A cooler for storing beverage containers. The cooler includes a housing defining an interior volume for storing a first beverage container at a first predetermined temperature and a compartment within the interior volume of the housing for storing a second beverage container at a second predetermined temperature that is at or below a freezing point of the beverage. The cooler further includes a user interface for receiving a user input to dispense the second beverage container, and a delivery portal for providing access to the second beverage container. A chute is configured to communicate the second beverage container from the compartment to the delivery portal and to cause nucleation of the beverage and form a slush beverage. A cooling unit is configured to maintain the interior volume of the housing at the first predetermined temperature and the compartment at the second predetermined temperature.

A refrigerated display unit is described which comprises at least one refrigerating machine; at least one refrigerated volume designed to contain products to be kept at a temperature lower than the room temperature by means of the refrigerating machine; at least one technical volume intended to contain an air treatment unit, operatively connected to the refrigerating machine and comprising at least one heat exchange battery, through which a refrigerating fluid and a carrier fluid exchange heat, and a plurality of fans placed at the inlet surface of the heat exchange battery; one or more doors or walls that isolate the refrigerated volume from the external environment; one or more conduits of an air system, placed in fluid connection with the heat exchange battery and arranged for conveying the refrigerated carrier fluid, moved by the fans, towards the refrigerated volume.

A beverage dispenser for dispensing one or more products is disclosed. The beverage dispenser may include a housing having a dispensing port, a shaft disposed within the housing, and a tray rotatably attached to the shaft. The tray may be tilted towards the dispensing port relative to the shaft. The tray may rotate the one or more products disposed thereon to the dispensing port via gravity after one of the one or more products disposed on the tray is dispensed.

This cold storage is provided with: a first sliding door that opens/closes a cold chamber; a second sliding door that opens/closes the cold chamber, and is positioned between the cold chamber and the first sliding door when the cold chamber is fully open; a compressor disposed at a position that becomes closer to the closed end of the second sliding door than the closed end of the first sliding door when the cold chamber is fully closed; a fan that generates air flow passing the surroundings of the compressor; and a housing that accommodates the compressor, and has formed therein a blow port for blowing out the air flow toward the first sliding door and the second sliding door.