An outdoor unit capable of promptly discharging dew condensation water dropped from a heat exchanger to an exterior is provided. A drainage port (42, 44) is formed in a bottom frame (26) of an outdoor unit (2) below a heat exchanger (13). A base leg (40) of the bottom frame (26) is formed to have a U shape section by upper plates (51b, 52b) abutted with a lower surface of the bottom frame (26), lower plates (51a, 52a) fixed to an installment surface (G), and standing plates (51c, 52c) connecting the upper plates (51b, 52b) and the lower plates (51a, 52a), and further includes a first part (51) and a second part (52) with respect to the longitudinal direction. The first part (51) is formed to have a U shape section opening outward in the horizontal direction with the lower plate (51a) thereof being fixed to the installment surface (G). The second part (52) is provided at least at a position corresponding to the drainage port (42, 44) with respect to the longitudinal direction of the base leg (40), and formed to have a U shape section opening inward in the horizontal direction, the second part having a structure where the upper plate (52b) thereof avoids a lower region of the drainage port (42, 44).

The present invention relates to a pump (15) for pumping a coolant (9) within a Dewar vessel (1) and to a corresponding Dewar vessel (1) for storing samples in a coolant (9). The Dewar vessel (1) comprises a thermally insulated reservoir (3) for the coolant (9) and a sample vessel (11) provided separately and arranged in the thermally insulated reservoir (3). The reservoir (3) is connected to the sample vessel (11) in such a way that the level of coolant (9) is constant in the sample vessel (11).

Pump (15) may help in keeping the level of coolant (9) in the sample vessel (11) constant. For this purpose the pump (15) comprises a chamber (17) with an inlet (19) and an outlet (21), a closing element (23) and a pressure increasing device (25). Therein, the inlet (19) is connectable to the reservoir (3) and the outlet (21) is connectable to a sample vessel (11) of the Dewar vessel (1). The chamber (17) is adapted to fill with coolant (9) through the inlet (19) by gravity and the closing element (23) is adapted to automatically close the chamber (17) when it is full of coolant (9). The pressure increasing device (25) is adapted to increase the pressure within the chamber (17), after the chamber (17) is closed, until the coolant (9) is released through the outlet (21).

Blast chiller apparatus (1) comprising a chilling chamber (3) structured for housing food to be cooled/frozen, a chilling circuit (6) comprising at least a first heat exchanger (8) designed to rapidly cool/freeze the chilling chamber (3); a defrost system (12) designed to defrost said at least first heat exchanger (8); at least an UV source (14) designed to irradiate ultraviolet radiations the inner space of said chilling chamber (3); and a control system configured to control the defrost system (12) to heat the first heat exchanger (8) so as to have the temperature of the chilling chamber (3) within a prefixed optimum temperature range of operating of said UV source (14).

Vorrichtung zum Lagern (1) einer Abtauklappe (2) für einen kältetechnischen Apparat (3), insbesondere für einen Luftkühler, wobei die Abtauklappe (2) über ein Schwenklager (4) gehalten ist, das quer zur Strömungsrichtung des den kältetechnischen Apparat (3) beaufschlagenden Mediums angeordnet ist.

Bei einer bekannten Vorrichtung dieser Art ist die Abtauklappe nach dem oberen Ende des kältetechnischen Apparates drehbar gelagert. Während der Abtauphase des Luftkühlers befindet sich die Abtauklappe in ihrer den Strömungsquerschnitt des Luftkühlers verschliessenden Ruhestellung, wodurch bei längeren Abtauphasen die Gefahr des Einfrierens der Drehachse besteht und darüber hinaus erhöhte Wärmeverluste durch Ausströmen von während der Abtauphase gebildeten Dampf durch den Spalt zwischen Wärmeaustauschergehäuse und Drehachse der Abtauklappe gegeben ist.

Dies wird erfindungsgemäss vermieden, indem das Schwenklager (4) in Form eines aus einem flexiblen Material gefertigten Scharniers (5) ausgebildet ist.

A refrigerator which variably controls operation of a sterilizer according to variation in humidity within the refrigerator to improve sterilizing capacity includes a control unit to drive the sterilizer while repeatedly turning the cold air circulation fan on/off during a refrigerating cycle in which the defrosting heater is not operated, and stop driving the sterilizer during operation of the defrosting heater.

The invention relates to a method for cooling one of: a chemical, a pharmaceutical or a biological material (6), wherein a liquid cryogen (C) or a gaseous phase (C') derived therefrom is passed (e.g. from a container (2)) to a heat exchanger (4) that is arranged in a compartment (5) in which said material (6) is arranged in order to cool said material (6), wherein the liquid cryogen (C) or gas (C') takes up heat in said heat exchanger (4) such that a warmer gaseous phase (C") of the cryogen (C) is generated which is guided out of the compartment (5) and re-used in the gaseous phase in another application (9). Further, the invention relates to a corresponding system (1).

A refrigerator which variably controls operation of a sterilizer according to variation in humidity within the refrigerator to improve sterilizing capacity includes a control unit to drive the sterilizer while repeatedly turning the cold air circulation fan on/off during a refrigerating cycle in which the defrosting heater is not operated, and stop driving the sterilizer during operation of the defrosting heater.