A refrigeration appliance, in particular a household refrigeration appliance, includes at least first, second and third storage chambers, and a refrigerant circuit on which the following are connected in series between a pressure connection and a suction connection of a compressor: a condenser, a first expansion valve, a first heat exchanger of the first storage chamber, a second expansion valve, a second heat exchanger of the second storage chamber, a third heat exchanger assigned to the third storage chamber, and a control circuit for controlling operation of the compressor and the expansion valves. The third heat exchanger is connected in series downstream of the second heat exchanger. The control circuit is configured to maintain a higher storage temperature in the third storage chamber than in the second storage chamber. A method for operating the refrigeration appliance and a computer program product are also provided.

A refrigerator is provided. The refrigerator includes a body comprising a first storage compartment, a door coupled to the body so as to open/close the first storage compartment and provided with a second storage compartment other than the first storage compartment, a weight sensing unit capable of being disposed in at least one of the first and second storage compartments so as to sense the weight of an item stored in the at least one of the first and second storage compartments, a communication unit for communicating with the weight sensing unit, and a control unit for generating, on the basis of the state of a communication connection between the weight sensing unit and communication unit, an output signal that distinguishes the state of the communication connection.

A water purifying apparatus including a head having a water inlet portion and a water outlet portion; a shaft provided in the head and rotatably mounted between the water inlet portion and the water outlet portion; a bypass flow path passing through a circumference of the shaft, and communicating the water inlet portion with the water outlet portion according to rotation of the shaft; a filter detachably mounted to the head, and having a filter inserting portion in which the shaft is inserted when being mounted on the head; and a filtering flow path in which an inlet port and an outlet port are formed on the circumference of the shaft in a direction intersecting the bypass flow path, and communicated between the filter, the water inlet portion and the water outlet portion with each other according to the rotation of the shaft.

Provided is a refrigeration appliance including a storage compartment, a user interface controller, and a user interface arranged in the storage compartment. The user interface is a stacked arrangement including a sensor assembly carrier, a graphic overlay, a light guide, and a printed circuit board (PCB) with a user interface controller and a self-capacitive electrode sensor. The main controller receives a signal from the user interface with self-capacitive electrode sensor and adjusts the temperature of the storage compartment based on the signal from the self-capacitive electrode sensor. A method controlling a refrigeration appliance with a stacked user interface is also provided.

Provided is a refrigeration appliance including a storage compartment, a user interface controller, and a user interface arranged in the storage compartment. The user interface is a stacked arrangement including a sensor assembly carrier, a graphic overlay, a light guide, and a printed circuit board (PCB) with a user interface controller and a self-capacitive electrode sensor. The main controller receives a signal from the user interface with self-capacitive electrode sensor and adjusts the temperature of the storage compartment based on the signal from the self-capacitive electrode sensor. A method controlling a refrigeration appliance with a stacked user interface is also provided.

A refrigerator and method utilize a pair of tandem evaporators to provide cooling for both a compartment and an ice making system of a refrigerator. An upstream evaporator in the pair of tandem evaporators provides cooling for a compartment such as a freezer, fresh food, flexible cooling, or quick cooling compartment, while a downstream evaporator is in fluid communication with the upstream evaporator to receive a portion of the air cooled by the upstream evaporator and further cool the received portion for use in cooling one or more components of the ice making system.

The present invention effectively forms an electric field directed into the interior of an accommodation chamber of an electric field-generating container. An electric field-generating container includes a container casing and electrode members. The container casing includes an accommodation chamber that accommodates a stored product. The electrode members form an electric field in the accommodation chamber. The container casing includes a ceiling interior finishing panel made of electrical insulating resin. The ceiling interior finishing panel is provided as an indoor surface of the accommodation chamber. The electrode members are held on the ceiling interior finishing panel.

A heat pump system for a vehicle may control a temperature of a battery module by use of one chiller in which a refrigerant and a coolant are heat-exchanged; and may increase a flow rate of the refrigerant by applying a gas injection device that selectively operates in a cooling, heating, or dehumidifying mode of a vehicle, maximizing cooling and heating performance.

An appliance including a control device in operative communication with a user input panel and a sensor provided. The control device is configured to emit, via the sensor, a first plurality of signals defining a first operating mode. The first operating mode includes one or more of a first scan rate or a first scan interval. The control device is configured to switch between the first operating mode and a second operating mode based on one or more of detection of a container, detection of a user, or a user input. The control device is configured to emit, via the sensor, a second plurality of signals defining the second operating mode. The second operating mode includes one or more of a second scan rate or a second scan interval different from the first operating mode.

Disclosed is a freezer cabinet (1) comprising a sensor system (37, 38, 39, 40) for detecting at least one parameter indicative of the state of the freezer cabinet (1); and a slot (23) shaped to receive a communication device (10) configured to communicate with the sensor system (37, 38, 39, 40). The slot (23) extends into the cabinet (1) from a trapezoidal orifice (24) in an outer wall (6) of the cabinet (1).