A method for controlling a refrigerator according to an embodiment of the present invention is characterized by comprising: a step for determining whether a defrosting period (POD) for defrosting a freezing chamber and a deep freezing chamber has elapsed; a step for, when it is determined that the defrosting period has elapsed, performing a deep cooling operation for bringing at least one among the temperature of the deep freezing chamber and temperature of the freezing chamber down to a temperature lower than a control temperature; and a step for defrosting the deep freezing chamber when the deep cooling operation is terminated, wherein, when the defrosting of the deep freezing chamber is started, a freezing chamber valve is closed to block cold air flow to the heat sink, the defrosting of the deep freezing chamber includes cold sink defrosting and heat sink defrosting performed after the cold sink defrosting is completed, and while the heat sink defrosting is being performed, a deep freezing chamber fan is driven to remove vapor generated during the cold sink defrosting.

The present invention relates to a refrigerator having a partitioned, separate deep-freeze space in a storage space of a refrigerator, and the aim of the present invention is to disclose a refrigerator having a deep freezer compartment which is not supported by a separate injection-molded component and in which a basket inside the deep-freeze space can be drawn out together when opening and closing the deep freezer compartment.

The present invention relates to a refrigerator having a separate deep-freezing space which is partitioned inside a storage space of the refrigerator. Provided is a refrigerator having a flow path which allows cold air to circulate inside a deep-freezing chamber. According to an embodiment disclosed in the present document, a flow path portion is formed on one part of the inner surface of the housing which forms the inner space of the deep-freezing chamber. The flow path portion is formed in a stepped shape on the inner surface of the housing.

The present invention relates to a refrigerator having a separate deep-freezing space which is partitioned inside a storage space of the refrigerator. Provided is a refrigerator having a flow path which allows cold air to circulate inside a deep-freezing chamber. According to an embodiment disclosed in the present document, a flow path portion is formed on one part of the inner surface of the housing which forms the inner space of the deep-freezing chamber. The flow path portion is formed in a stepped shape on the inner surface of the housing.

The subject matter described herein relates to a mobile solution and processes for transporting products that require to be maintained at temperatures from −5° C. to −80° C., as well as a non-mobile option. The subject matter includes systems, methods, and devices that include a power system, a refrigeration system, a storage unit comprising a compartment configured to hold the temperature sensitive material, and a mobile storage structure configured to house the power system, the refrigeration system, and the storage unit

A method efficiently changes the state of an object at low cost and in a short time, in which a state change control device changes the state of an object by bringing the object into contact with an ice slurry to cause a temperature change to the object. The device includes an ice slurry contact part that brings the object and the ice slurry into contact with each other at a predetermined relative speed and changes the temperature of the object, and an ice slurry supply part that supplies the ice slurry to the ice slurry contact part.

A method efficiently changes the state of an object at low cost and in a short time, in which a state change control device changes the state of an object by bringing the object into contact with an ice slurry to cause a temperature change to the object. The device includes an ice slurry contact part that brings the object and the ice slurry into contact with each other at a predetermined relative speed and changes the temperature of the object, and an ice slurry supply part that supplies the ice slurry to the ice slurry contact part.

A method for controlling a refrigerator, according to an embodiment of the present invention, comprises: a step in which it is determined whether a period of defrosting (POD) for defrosting a freezing compartment and a deep-freezing compartment has elapsed; a step in which, when it is determined that the period of defrosting has elapsed, a deep cooling operation for cooling at least one from among the temperature of the deep-freezing compartment and the temperature of the freezing compartment to be lower than a control temperature is performed; and a step in which, when the deep cooling operation finishes, a defrosting operation for defrosting the freezing compartment and the deep-freezing compartment is performed. When the defrosting operation starts, a freezing compartment valve is closed so as to prevent cold air from flowing to a freezing compartment evaporator and a heat sink, and at least a portion of a freezing compartment defrosting section and at least a portion of a deep-freezing compartment defrosting section overlap with each other.

The present invention relates to a refrigerator including a separate deep-freezing space partitioned in a storage space of the refrigerator, wherein the structure of a guide rail for pushing in or pulling out a deep-freezing compartment door when a deep-freezing compartment forming the deep-freezing space is opened/closed can be simplified, and the pull-out distance of the deep-freezing compartment door can be ensured.

The present invention relates to a refrigerator including a separate deep-freezing space partitioned in a storage space of the refrigerator, wherein the structure of a guide rail for pushing in or pulling out a deep-freezing compartment door when a deep-freezing compartment forming the deep-freezing space is opened/closed can be simplified, and the pull-out distance of the deep-freezing compartment door can be ensured.