A method for directing thermal energy to an evaporator of a transport climate control circuit of a transport climate control system is provided. The method includes a controller determining whether the climate control circuit is operating in a start-stop cooling mode. Also, the method includes the controller determining a thermal energy charge of the thermal storage reservoir when the climate control circuit is operating in the start-stop cooling mode. The method also includes determining whether the thermal energy charge is greater than a charge threshold. Further, the method includes determining whether the climate control circuit is operating in a stop portion of the start-stop cooling mode when the thermal energy charge is greater than the charge threshold. The method further includes transferring thermal energy from the thermal storage reservoir to an evaporator when the climate control circuit is operating in the stop portion of the start-stop cooling mode.

An internal temperature adjusting device includes a heat pump, an internal heat exchanger, and an external heat exchanger. The internal heat exchanger is configured to function as one of an evaporator or a condenser of the heat pump, and exchange heat between a heat medium and air inside the container. The external heat exchanger is configured to function as the other one of the evaporator or the condenser, and exchange heat between the heat medium and air outside the container. The external heat exchanger includes a plurality of heat exchanging members separated from each other. According to the internal temperature adjusting device, drainage of the external heat exchanger as a whole can be secured.

The present invention relates to a water drainage assembly for use in a refrigeration appliance which has a rear outer wall and a rear inner wall. The water drainage assembly of the present invention comprises a water drainage apparatus which has an upper mounting seat and a lower mounting seat formed on opposing ends of its main body, wherein the lower mounting seat form-fittingly abuts against a vertical planar portion of the rear outer wall, and wherein the upper mounting seat form-fittingly abuts against a curved portion of the rear inner wall.

Disclosed is a container for the dry fog humidity control and freshness preservation of fruits and vegetables, comprising a container body and a refrigeration unit, wherein the refrigeration unit comprises a compressor, an evaporator and a condenser, the evaporator being located inside the container body; and further comprising a water tank for collecting condensed water of the refrigeration unit, wherein a dry fog atomization spray head is disposed adjacent to the evaporator in the container body; the dry fog atomization spray head (8) comprises a gas cavity, (8-4), a liquid cavity, a mixing cavity and a nozzle; a liquid inlet of the liquid cavity is in communication with the water tank; and the nozzle of the dry fog atomization spray head faces the evaporator so as to enable dry fog generated by the dry fog atomization spray head to be discharged along with cold air of the refrigeration unit.

An internal temperature adjusting device includes a heat pump, an internal heat exchanger, and an external heat exchanger. The internal heat exchanger is configured to function as one of an evaporator or a condenser of the heat pump, and exchange heat between a heat medium and air inside the container. The external heat exchanger is configured to function as the other one of the evaporator or the condenser, and exchange heat between the heat medium and air outside the container. The external heat exchanger includes a plurality of heat exchanging members separated from each other. According to the internal temperature adjusting device, drainage of the external heat exchanger as a whole can be secured.

Disclosed is a window air conditioner drain that includes a main body having a drain side and an interfacing side. The drain side includes a funnel structure that narrows to a tube attachment portion of the funnel structure. The window drain further includes a magnetic attachment mechanism configured for magnetically attaching the main body to a window air conditioner such that the main body covers a drainage hole of the window air conditioner. Further disclosed is a window air conditioner drain kit incorporating the window air conditioner drain, and a kit that includes the window air conditioner drain, magnets and/or a flexible tube.

The present invention relates to a water drainage assembly for use in a refrigeration appliance which has a rear outer wall and a rear inner wall. The water drainage assembly of the present invention comprises a water drainage apparatus which has an upper mounting seat and a lower mounting seat formed on opposing ends of its main body wherein the lower mounting seat form-fittingly abuts against a vertical planar portion of the rear outer wall, and wherein the upper mounting seat form-fittingly abuts against a curved portion of the rear inner wall.

A control method for a refrigerator and a computer storage medium are provided. The refrigerator comprises a refrigerator body defining a first chamber and a door body that comprises a main door defining a second chamber, and a secondary door; a rear wall of the main door is provided with an air supply port formed thereon and a condensation removal air channel defined therein; a plurality of condensation removal holes are formed on the front surface of the rear wall. The control method comprises: acquiring an air relative humidity of the second chamber; acquiring an air relative humidity threshold .sub.0; comparing with .sub.0; if .sub.0, closing the condensation removal air channel, and opening the air supply port; and if >.sub.0, closing the air supply port, and opening the condensation removal air channel to operate a condensation removal mode.