A domestic refrigeration appliance includes an ice and/or water-dispensing device for non-crushed ice pieces or ice flakes created therefrom by crushing or water created in the appliance, depending on an operational setting of a medium creation facility. The dispensing device has a user-actuatable dispensing lever movable to start dispensing. An adjustment facility adjusts an operational setting of the creation facility. An input facility has user-actuated controls selecting a medium dispensing type before actuating the lever. A control unit adjusts the adjustment facility depending on a signal created by actuation of a control and associated medium dispensing type, before actuating the lever to change the operational setting of the creation facility if the creation facility coupled with the adjustment facility is positioned in an operational setting different from that required for the selected medium dispensing type. A method of operating the appliance is also provided.

An automatic device for brewing beverages at least comprises an ice cube meter, at least one beverage supply device, at least one robotic arm, a feed conveyor belt, a plurality of feeders, and a film sealing machine, mainly uses the robotic arm to take up ice cubes and a beverage from the ice cube meter and the beverage supply device with a hand-shake cup, then shake and mix, and pour the shaken and mixed beverage and ice cubes into a beverage cup, the beverage cup is conveyed to pass through the feeders by the feed conveyor belt, ingredient is squeezed into the beverage cup by the feeder, and finally the beverage cup containing the beverage, ice cubes and ingredient is conveyed by the feed conveyor belt to the film sealing machine for sealing.

An ice maker for forming ice having a refrigeration system, a water system, and a control system. The refrigeration system includes a compressor, a condenser, and an evaporator. The water system includes a water filter and a sump to hold water to be made into ice. The control system includes a controller adapted to determine a baseline freeze time, a baseline harvest time, and/or a baseline fill time after an initial set of ice making cycles and is further adapted to compare subsequent harvest times, freeze times, and/or fill times to the baseline freeze, harvest, and/or fill times to determine whether the ice maker needs maintenance. If controller determines that ice maker needs maintenance, controller can push a notification to a portable electronic device connected to the ice maker.

Provided is a refrigerator including a cabinet having a refrigerating compartment and a freezing compartment defined therein, and an ice-maker disposed in the freezing compartment, wherein the ice-maker includes a cold-air hole for receiving cold air, an upper tray having a plurality of hemispherical upper chambers defined therein, a lower tray pivotably disposed below the upper tray, wherein the lower tray has a plurality of lower chambers defined therein respectively connected to the upper chambers by pivoting, wherein each of the lower chambers and each of the upper chambers connected with each other define an ice chamber for forming spherical ice therein, a driver for pivoting the lower tray, and at least one shield formed on an outer face of the upper tray and corresponding to at least one of the ice chambers respectively, thereby to reduce the cold-air from invading the at least one corresponding ice chamber.

Provided is a refrigerator including a cabinet having a refrigerating compartment and a freezing compartment defined therein, and an ice-maker disposed in the freezing compartment, wherein the ice-maker includes a cold-air hole for receiving cold air, an upper tray having a plurality of hemispherical upper chambers defined therein, a lower tray pivotably disposed below the upper tray, wherein the lower tray has a plurality of lower chambers defined therein respectively connected to the upper chambers by pivoting, wherein each of the lower chambers and each of the upper chambers connected with each other define an ice chamber for forming spherical ice therein, a driver for pivoting the lower tray, and at least one shield formed on an outer face of the upper tray and corresponding to at least one of the ice chambers respectively, thereby to reduce the cold-air from invading the at least one corresponding ice chamber.

An all-in-one system of an auger motor for a refrigerator and a method for manufacturing the same are described. An all-in-one system of an auger motor for a refrigerator, comprising: a casing configured to integrally form a selector casing portion, an auger motor casing portion, and a cold air duct connector casing portion in one body; an ice selector configured to be installed in the selector casing portion; an auger motor device configured to be installed in the auger motor casing portion; and a cold air duct connector configured to be installed in the cold air duct connector casing portion.

An all-in-one system of an auger motor for a refrigerator and a method for manufacturing the same are described. An all-in-one system of an auger motor for a refrigerator, comprising: a casing configured to integrally form a selector casing portion, an auger motor casing portion, and a cold air duct connector casing portion in one body; an ice selector configured to be installed in the selector casing portion; an auger motor device configured to be installed in the auger motor casing portion; and a cold air duct connector configured to be installed in the cold air duct connector casing portion.

A refrigerator appliance is generally provided herein. The refrigerator appliance may include a cabinet, an icebox liner, an icemaker, an ice bin, and a circulation duct. The cabinet may define a one or more chilled chambers. The icebox liner may be attached to the cabinet. The icebox liner may define a sub-compartment in which the icemaker may be mounted. The ice bin may define a storage volume within the sub-compartment to receive ice from the icemaker. The circulation duct may extend within the sub-compartment in conductive thermal communication with the icemaker. The circulation duct may define an air passage in fluid communication with one of the chilled chambers and fluid isolation from the storage volume.

An ice maker includes an ice making unit comprising an evaporator connected to a refrigeration system, an ice holding bin, a sump, a pump, a drain valve, an ozonated water source, and a controller. The controller activates the ozonated water source supplying a first volume of ozonated water to the sump, thereafter activates the pump to circulate the first volume of ozonated water from the sump to the ice making unit, once a predetermined sterilization time has been reached, the controller turns off the pump and drains the first volume of ozonated water from the sump. The controller initiates an ice making mode, and activates the ozonated water source to supply a second volume of ozonated water to the sump, thereafter activates the pump to circulate the second volume of ozonated water from the sump to the ice making unit forming ozonated ice on the evaporator, and initiates an ice harvest mode to remove the ozonated ice from the evaporator and delivers it to the ice holding bin.

An ice maker includes an ice making unit comprising an evaporator connected to a refrigeration system, an ice holding bin, a sump, a pump, a drain valve, an ozonated water source, and a controller. The controller activates the ozonated water source supplying a first volume of ozonated water to the sump, thereafter activates the pump to circulate the first volume of ozonated water from the sump to the ice making unit, once a predetermined sterilization time has been reached, the controller turns off the pump and drains the first volume of ozonated water from the sump. The controller initiates an ice making mode, and activates the ozonated water source to supply a second volume of ozonated water to the sump, thereafter activates the pump to circulate the second volume of ozonated water from the sump to the ice making unit forming ozonated ice on the evaporator, and initiates an ice harvest mode to remove the ozonated ice from the evaporator and delivers it to the ice holding bin.