Patent application number | Description | Published |
20120104022 | APPARATUS, METHOD AND SYSTEM FOR MANAGING AND DISPENSING LIQUID ENHANCEMENT COMPONENTS FROM A REFRIGERATOR - A refrigerator or liquid dispensing appliance adapted for receiving, storing, managing, processing and dispensing a liquid enhancement component for preparation of a finished beverage is disclosed. Delivery, processing and management of the liquid enhancement component includes loading a solid liquid enhancement component at a product interface, and managing the transfer of the liquid enhancement component through various systems of the invention including processing to provide a processed liquid enhancement component for discharging for preparing a finished beverage. | 05-03-2012 |
20140053578 | INTEGRATED ICE MAKER PUMP - A refrigerator includes a refrigerator cabinet, an ice maker disposed within the refrigerator cabinet, a pump fluidly connected to the ice maker and configured for pumping cooling media to the ice maker, and a motor operatively connected to the ice maker and configured to provide oscillating movement to the ice maker. The pump is operatively connected to the motor such that driving of the motor results in the pumping of the cooling media with the pump. | 02-27-2014 |
20140075963 | PHASE CHANGE MATERIALS FOR REFRIGERATION AND ICE MAKING - A bottom mount refrigerator is provided including a thermal battery or phase change material positioned within the refrigerator or freezer in order to increase energy efficiency and compartment sizes of the refrigerator. The thermal battery can be used with an ice maker to aid in removing heat from the water in the ice maker to produce ice. Furthermore, the phase change material or thermal battery may be used with a thermoelectric cooler to aid in ice production. The phase change material may be tuned to various temperatures according to the desired use of the phase change material, as well as the location of the thermal battery or phase change material. Other embodiments include positioning the phase change material in the liner of the compartments or in thermal storage units in order to further increase the energy efficiency of the refrigerator. | 03-20-2014 |
20140096544 | REFRIGERATOR WITH WET ICE STORAGE - A refrigerator may include a refrigerator cabinet and at least one compartment disposed within the refrigerator cabinet, an ice maker for making wet ice disposed within the refrigerator cabinet, a bucket for storing the ice, the bucket positioned to receive the wet ice from the ice maker, and a drain in the bucket for draining water from the bucket. A method of making ice in a refrigerator includes making ice using an ice maker of the refrigerator, conveying the ice from the ice maker to a bucket having a drain, maintaining the ice in the bucket at a temperature above freezing to allow the ice to melt to water, and draining the water from the bucket. | 04-10-2014 |
20140099405 | APPARATUS, METHOD AND SYSTEMS FOR PROVIDING SELECTABLE LEVEL CARBONATED WATER - An apparatus, method and system configured to produce and provide on-demand, immediate sequential dispensing of varying levels of carbonated water, such as carbonated water having a level of carbonation selected by an end-user, is disclosed. In one aspect, immediate sequential dispensing of varying levels of carbonated water is provided by varying the rate of agitation during a fixed agitation interval. The carbonating unit has a volume with an inlet in communication with a source of carbonating gas and noncarbonated water. An agitator is housed within the volume of the carbonating unit and is operated by a variable speed actuator. | 04-10-2014 |
20140109601 | LOW ENERGY EVAPORATOR DEFROST - A refrigerator is provided that includes a low energy defrost system and method for melting frost formed on an evaporator of a cooling system for the refrigerator. The low energy defrost system includes using air from the refrigerator compartment or external air adjacent the refrigerator to be directed to the evaporator and passed adjacent the evaporator coils to melt any frost formed thereon. As the air is above freezing temperature, it will melt any frost formed on the coils without the need of use an electrical heater. Re-cooled air from the melted frost may then be directed back into the refrigerator compartment to be used to aid in cooling the refrigerator compartment or keeping the refrigerator compartment at the programmed or predetermined temperature. | 04-24-2014 |
20140150456 | REFRIGERATOR WITH ICEMAKER CHILLED BY THERMOELECTRIC DEVICE COOLED BY FRESH FOOD COMPARTMENT AIR - An icemaker is mounted remotely from a freezer compartment. The icemaker includes an ice mold. A thermoelectric device is provided and includes a warm side and an opposite cold side. A flow pathway is connected in communication between the cold side of the thermoelectric device and the icemaker. In one aspect, a fan is operatively positioned to move air from the fresh food compartment across the warm side of the thermoelectric device and a pump moves fluid from the cold side of the thermoelectric device to the icemaker. Cold air, such as from a refrigerator compartment, may be used to dissipate heat from the warm side of the thermoelectric device for providing cold fluid to and for cooling the ice mold of the icemaker. | 06-05-2014 |
20140150457 | REFRIGERATOR WITH ICEMAKER CHILLED BY THERMOELECTRIC DEVICE COOLED BY FRESH FOOD COMPARTMENT AIR - An icemaker is mounted remotely from a freezer compartment. The icemaker includes an ice mold. A thermoelectric device is provided and includes a warm side and an opposite cold side. A flow pathway is connected in communication between the cold side of the thermoelectric device and the icemaker. In one aspect, a fan is operatively positioned to move air from the fresh food compartment across the warm side of the thermoelectric device and a pump moves fluid from the cold side of the thermoelectric device to the icemaker. Cold air, such as from a refrigerator compartment, may be used to dissipate heat from the warm side of the thermoelectric device for providing cold fluid to and for cooling the ice mold of the icemaker. | 06-05-2014 |
20140150458 | FRESH ICE - A refrigerator includes a refrigerator cabinet, an ice maker disposed within the refrigerator cabinet, an ice storage bucket, a heater thermally coupled to the ice storage bucket to melt ice stored in the ice storage bucket, and a drain positioned to capture water from the ice melted by the heater. | 06-05-2014 |
20140150459 | CONVERTIBLE ICE STORAGE - A refrigerator includes a refrigerator cabinet, an ice maker disposed within the refrigerator cabinet, an ice storage bucket and a drain positioned to capture water from the ice as it is melted. Ice may melt due to air from the refrigeration compartment or elsewhere, the ambient temperature within the ice storage bucket, or a heater thermally coupled to the ice storage bucket to melt ice stored in the ice storage bucket. | 06-05-2014 |
20140150460 | APPARATUS WITH ICE MAKER - An apparatus that has a housing with an icemaker disposed within the housing is disclosed. The icemaker includes an ice mold. A thermoelectric device is provided having a warm side and an opposite cold side. The cold side is thermally coupled to the icemaker. A flow pathway is configured in communication with the warm side of the thermoelectric device. A heat carrier is communicated through the flow pathway. The heat carrier transfers heat from the warm side of the thermoelectric device to support operations of the apparatus. The apparatus may be configured as a refrigerator wherein the refrigerator is configured to transfer the heat carrier from the warm side of the thermoelectric device to a compartment of the refrigerator. | 06-05-2014 |
20140150462 | REFRIGERATOR WITH THERMOELECTRIC DEVICE CONTROL PROCESS FOR AN ICEMAKER - A refrigerator that has a fresh food compartment, a freezer compartment, and a door that provides access to the fresh food compartment is disclosed. An icemaker is mounted remotely from the freezer compartment. The icemaker includes an ice mold with an icemaking cycle having a liquid to ice phase change. A thermoelectric device has a cold side and a warm side. A controller is in operable communication with an input to the thermoelectric device. A sensor is in operable communication with the input to the thermoelectric device and the controller. A feedback response from the input to the thermoelectric device monitors the liquid to ice phase change of the icemaking cycle. | 06-05-2014 |
20140150465 | ON-DOOR ICE MAKER COOLING - A refrigerator includes a refrigerator cabinet, a refrigerator compartment disposed within the refrigerator cabinet, a refrigerator compartment door for providing access to the refrigerator compartment, an ice maker on the refrigerator compartment door, a thermoelectric cooler associated with the ice maker and operatively connected to the refrigerator compartment door, the thermoelectric cooler having a first side and an opposite second side, and a cooling loop operatively connected to the refrigerator compartment door and configured for cooling the thermoelectric cooler. | 06-05-2014 |
20140150466 | REFRIGERATOR WITH ICE MOLD CHILLED BY FLUID EXCHANGE FROM THERMOELECTRIC DEVICE WITH COOLING FROM FRESH FOOD COMPARTMENT OR FREEZER COMPARTMENT - A refrigerator that has a fresh food compartment, a freezer compartment, and a door that provides access to the fresh food compartment is disclosed. An icemaker is mounted remotely from the freezer compartment. The icemaker includes an ice mold. A thermoelectric device is provided and includes a warm side and an opposite cold side. A fluid pathway is connected in communication between the cold side of the thermoelectric device and the icemaker. A pump moves fluid from the cold side of the thermoelectric device to the icemaker. Cold fluid or air may be taken from the freezer compartment to dissipate heat from the warm side of the thermoelectric device for providing cold fluid to and for cooling the ice mold or cool/warm fluid to other cooling or warming applications in the refrigerator compartment or on the refrigerator compartment door. | 06-05-2014 |
20140150467 | REFRIGERATOR WITH ICEMAKER CHILLED BY THERMOELECTRIC DEVICE COOLED BY FRESH FOOD COMPARTMENT AIR - A refrigerator that has a fresh food compartment, a freezer compartment, and a door that provides access to the fresh food compartment is disclosed. An icemaker is mounted remotely from the freezer compartment. The icemaker includes an ice mold. A thermoelectric device is provided and includes a warm side and an opposite cold side. The icemaker is thermally influenced by the cold side of the thermoelectric device. Air or fluid may be moved from the fresh food compartment across the warm side of the thermoelectric device. Cold air or fluid, such as from the refrigerator compartment, is used to dissipate heat from the warm side of the thermoelectric device for cooling the ice mold of the icemaker. | 06-05-2014 |
20140150468 | MODULAR COOLING AND LOW ENERGY ICE - A refrigerator includes a refrigerator cabinet, an ice maker disposed within the refrigerator cabinet, an ice mold in the ice maker, and a thermoelectric device positioned below the ice mold and configured to provide cooling liquid along a bottom side of the ice mold during freezing of water to make ice. The ice maker is further configured to warm the bottom side of the ice mold to facilitate harvesting of the ice. The ice maker may be disposed within a refrigeration compartment and may be configured to make clear ice. The ice mold may be fixed in place during the harvesting of the ice. The ice maker may be further configured to warm the bottom side of the ice mold to facilitate harvesting of the ice by providing warming liquid along the bottom side of the ice mold. | 06-05-2014 |
20140150472 | CUSTOM BIN INTERFACE - A refrigerator may include a refrigerator cabinet in at least one enclosure that can be mounted in different locations within the cabinet. The enclosure also can have targeted, independently controlled temperature provided to it. This allows the refrigerator to be highly customizable and reconfigurable according to desire or need. For example, an ice maker ice bin can be mounted in different positions within the cabinet, including door mount, refrigerated food compartment mount or freezer mount. Alternatively, specialized enclosures for such things as can chilling, milk chilling, meat chilling, or even thawing can be placed in multiple locations in the cabinet according to need or desire. | 06-05-2014 |
20140150473 | REFRIGERATOR PROVIDING AIR FLOW TO DOOR - A refrigerator includes a refrigerator cabinet, a fresh food compartment disposed within the refrigerator cabinet, a freezer compartment disposed within the refrigerator cabinet below the fresh food compartment, and first and second French doors operatively connected to the refrigerator cabinet to provide access to the fresh food compartment. There is also a mullion between the fresh food compartment and the freezer compartment, an air inlet and an air outlet proximate a bottom of the first French door, and an air outlet and an air inlet on a front face of the mullion. When the first French door is in a closed position, the air inlet proximate the bottom of the first French door aligns with the air outlet on the front face of the mullion and the air outlet proximate the bottom of the first French door aligns with the air inlet on the front face of the mullion. | 06-05-2014 |
20140150474 | CUSTOM LOCATION ICE MAKER - A method of configuring an ice maker within a refrigerator includes providing the refrigerator, the refrigerator having a refrigerator cabinet, a fresh food compartment disposed within the refrigerator cabinet, a freezer compartment disposed within the refrigerator cabinet, the ice maker having a fluid line extending to a fluid supply within the refrigerator, and a door providing access to within the refrigerator cabinet. The method further includes configuring the refrigerator for relocation by positioning the ice maker in a first position within the refrigerator cabinet without disconnecting the fluid line from the ice maker; relocating the refrigerator. The method further includes installing the refrigerator by moving the ice maker from the first position within the refrigerator cabinet to a second position within the refrigerator cabinet without disconnecting or connecting the fluid line to the ice maker. | 06-05-2014 |
20140150484 | LOW ENERGY REFRIGERATOR HEAT SOURCE - A refrigerator is provided that includes a low energy refrigerator heat source. The refrigerator includes a heat source positioned at a source of latent heat. The heat source harvested heat from the source of latent heat and stores said heat in a fluid within that heat reservoir or heat exchanger. The warmed fluid is then supplied via a fluid pathway to an application requiring a heat output. Thus, the heat reservoir provides heat to the application without use of an energy-consuming device, which reduces the energy consumption of the refrigerator. | 06-05-2014 |
20140150486 | REFRIGERATOR WITH ICE MOLD CHILLED BY AIR EXCHANGE COOLED BY FLUID FROM FREEZER - A refrigerator that has a fresh food compartment, a freezer compartment, and a door that provides access to the fresh food compartment is disclosed. An icemaker is mounted remotely from the freezer compartment. The icemaker includes an ice mold. A thermoelectric device is provided and includes a warm side and an opposite cold side. A flow pathway is connected in communication between the cold side of the thermoelectric device and the icemaker. A fan is operatively positioned to move air from the fresh food compartment across the warm side of the thermoelectric device. A pump moves fluid from the cold side of the thermoelectric device to the icemaker. Cold air, such as from the refrigerator compartment, is used to dissipate heat from the warm side of the thermoelectric device for providing cold fluid to and for cooling the ice mold of the icemaker. | 06-05-2014 |
20140150487 | MODULAR COOLING AND LOW ENERGY ICE - A refrigerator includes a refrigerator cabinet, an ice maker disposed within the refrigerator cabinet, and an ice mold in the ice maker. The ice maker is configured to provide cooling air from a cool air source along a bottom side of the ice mold during freezing of water to make ice. The ice maker is further configured to provide warm air from a warm air source along the bottom side of the ice mold to facilitate harvesting of the ice. The warm air source may be a refrigeration compartment disposed within the refrigerator cabinet. The ice maker may be disposed within the refrigeration compartment or the freezer compartment. The ice maker may be configured to make clear ice. The ice mold may be fixed in place during the harvesting of the ice. | 06-05-2014 |
20140165598 | MOLDED CLEAR ICE SPHERES - An ice maker adapted to make clear ice spheres includes a mold apparatus having a first mold portion and a second mold portion. The first and second mold portions further include mold cavity segments which define mold cavities when the mold apparatus is assembled in an ice forming position. A cooling source is in thermal communication with the first mold portion of the mold apparatus, such that water injected into the mold cavities is solidified in a directional manner from the first mold portion to the second mold portion to create a clear ice structure. Water is circulated, typically continuously, within the mold cavities to ensure clear ice is formed by injecting and simultaneously ejecting water from the mold cavities during ice formation. | 06-19-2014 |
20140165599 | THERMOELECTRIC ICE MAKER - An ice maker has a mold with a first piece and a second piece. A cavity within the mold includes a first reservoir in the first piece and a second reservoir in the second piece that align to substantially enclose the cavity. A fluid intake aperture in the first piece extends to the cavity for injecting water therein. A thermoelectric device has a cold side thermally coupled to the exterior surface of the second piece. The thermoelectric device transfers heat from the cold side to a hot side to provide a first temperature to the mold. A removable cooling source is thermally coupled to the hot side of the thermoelectric device. The cooling source is configured to reduce the temperature of the hot side to allow the cold side to provide a second temperature that is cooler than the first temperature to freeze the water in the cavity. | 06-19-2014 |
20140165600 | CLEAR ICE MAKER AND METHOD FOR FORMING CLEAR ICE - A clear ice maker having an ice tray with a thermally conductive cold plate, where the cold plate has a top surface and a bottom surface, with a thermoelectric cooling device thermally coupled to the bottom surface. Water is dispensed onto the top surface, and the bottom surface is cooled such that a portion of the water adjacent the top surface is frozen, to form a layer of ice. Then the ice tray is oscillated about a transverse axis of the ice tray, such that the water freezes in successive layers from the top surface of the cold plate upwards. | 06-19-2014 |
20140165601 | CLEAR ICE MAKER - An ice making tray has an array of individual ice cube compartments. A mechanical oscillating mechanism is coupled to the tray and rotates the tray from a horizontal plane in opposite directions along an axis through an angle φ of about 20° to 40°, such that water in the tray moves between ice cube compartments. The frequency of oscillation (ω) is harmonically related to the frequency of movement of water in the tray and is about equal to or about twice the frequency of movement of water in the tray. In a preferred embodiment, the floor of the tray is a thermally conductive material in contact with a thermoelectric plate used to freeze the water as well as being subsequently heated to release the formed ice cubes. | 06-19-2014 |
20140165602 | CLEAR ICE MAKER AND METHOD FOR FORMING CLEAR ICE - An ice maker, including sensors to measure usage parameters and transmit the same to a controller. The controller is operably connected to a plurality of ice forming systems, and directs the systems to operate in a high energy mode or a low energy mode, based on the usage parameter. The usage parameters may include an ice level, a change in the ice level over time, the amount of time that a dispenser is actuated, the time of day, or historical usage patterns. The ice forming systems may include one or more of a thermoelectric device coupled to a bottom surface of an ice forming plate, a forced air system to circulate cold air, a forced air system to circulate warm air, and a temperature control system to maintain a temperature gradient between a first chamber above the ice forming plate and a second chamber below the ice forming plate. | 06-19-2014 |
20140165603 | COOLING SYSTEM FOR ICE MAKER - An ice maker having an ice tray horizontally suspended within a housing and a drive body rotatably coupled to a transverse axis of the ice tray and configured to oscillate the ice tray about the transverse axis. The cold side of a thermoelectric device is thermally coupled with a bottom surface of the ice tray, and a hot side opposes the cold side. A barrier extends around the periphery of the ice tray within the housing, and separates the housing into a first chamber and a second air chamber. A heat sink is thermally coupled with the hot side of the thermoelectric device and extends into the second air chamber. An intake duct member is coupled with the housing proximate the second air chamber, and is configured to dispense a cold air flow over the heat sink. The barrier restricts the cold air flow from entering the first chamber. | 06-19-2014 |
20140165604 | ICE MAKER WITH ROCKING COLD PLATE - An ice maker assembly includes an ice forming plate and a cooling source thermally engaged to a bottom surface of the ice forming plate. The cooling source is configured to freeze water coming into contact with a top surface of the ice forming plate. A containment wall surrounds the top surface of the ice forming plate to define an ice tray that is configured to retain water. An electrical drive body is rotatably coupled to the ice tray and is configured to oscillate the ice-forming plate in a rocking cycle about a transverse axis of the ice tray. A median wall divides the ice tray along the transverse axis into a first reservoir and a second reservoir. The rocking cycle causes water to repeatedly move over the median wall to form layers of an ice piece within each reservoir of the ice tray. | 06-19-2014 |
20140165605 | CLEAR ICE MAKER WITH VARIED THERMAL CONDUCTIVITY - A clear ice maker assembly for an appliance includes an ice tray rotatably coupled with a housing and horizontally suspended within an interior volume of the housing. The ice tray includes a metallic ice forming plate with a bottom surface, a substantially planar top surface and an edge portion. A containment wall extends upward from the top surface along the edge portion. A grid having at least one dividing wall extends across the top surface between the containment walls. A fluid line extends into the housing and supplies water to the top surface of the ice tray to be retained by the containment wall and the grid. A cooling source is thermally coupled to the bottom surface of the ice forming plate. The containment wall and the grid have a material with a lower thermal conductivity than the ice forming plate. | 06-19-2014 |
20140165610 | METHOD OF PRODUCING ICE SEGMENTS - A method of making an ice structure comprising the steps of: providing a mold with at least two mold portions where the at least two mold portions come together to form a cavity that defines a shape of an ice structure; placing the at least two mold portions in thermal communication with at least one cooling source; chilling the at least two mold portions using the at least one cooling source; orienting the at least two mold portions in spaced apart relation; delivering a flow of water such that the flow of water passes along the surface of the at least two mold portions with the mold segments such that water flows (by capillary/wicking action) over the mold segment and forms an ice structure segment; ceasing the flow of water when the ice structure segments are formed; and fusing the ice structure segments together to form the ice structure. | 06-19-2014 |
20140165611 | CLEAR ICE MAKER - An ice making tray has a water basin with a thermally conductive floor and a flexible grid positioned therein to define a plurality of ice making compartments. A motor is coupled to the basin to rotate the basin and grid to an inverted position, and a link is coupled between the motor and drive such that the grid is rotatable out of the basin and is flexed to release ice cubes formed therein. | 06-19-2014 |
20140165617 | CLEAR ICE MAKER WITH WARM AIR FLOW - An ice-making apparatus for an appliance having a housing with an interior volume and an ice tray horizontally suspended in the interior volume. The ice tray has a cold plate with a top surface and a bottom surface and a containment wall surrounding an edge portion of the cold plate to retain water. A cooling source is thermally coupled to the bottom surface of the cold plate. An intake conduit extends into the interior volume over the ice tray and is configured to draw ambient air into the interior volume over the ice tray, and the ambient air is above freezing. | 06-19-2014 |
20140165621 | ROTATIONAL ICE MAKER - An ice maker has an ice mold that includes a metallic piece and an insulated piece. A cooling source is thermally coupled to the metallic piece. A cavity is within the ice mold and has a first reservoir in the metallic piece and a second reservoir in the insulated piece. The first and second reservoirs align to substantially enclose the cavity. An intake aperture in the insulated piece extends to the cavity for receiving water. A drive body rotatably coupled to the ice mold that operates in an ice-making cycle, wherein the drive body repeatedly rotates the mold from an injection position to a tilted position. The cavity receives an incremental amount of water in the injection position and moves to the tilted position to freeze at least a portion of the incremental amount of water over a side surface of the cavity to make an ice piece. | 06-19-2014 |
20140165622 | TWIST HARVEST ICE GEOMETRY - An ice maker assembly includes an ice making apparatus for an appliance with an ice making tray having a water basin formed by a metallic ice forming plate and at least one perimeter sidewall extending upwardly from a top surface of the ice forming plate. The ice making tray also has a grid with at least one dividing wall. The at least one perimeter sidewall and the at least one dividing wall and the top surface of the ice forming plate form at least one ice compartment having an upper surface and a lower surface. An ice body is formed in the at least one ice compartment. Moreover, the at least one perimeter sidewall and the at least one dividing wall form a draft angle with the top surface of the ice forming plate, of about 17° to about 25° degrees. | 06-19-2014 |
20140165643 | LAYERING OF LOW THERMAL CONDUCTIVE MATERIAL ON METAL TRAY - An ice maker having a housing defining an interior volume, with an ice tray rotatably coupled with the housing and horizontally suspended across the interior volume thereof. The ice tray has ice wells, defined along the bottom by a bottom surface and the sides by an interior surface of at least one containment wall, wherein the containment wall has an upper portion, including a top surface of the containment wall and the interior surface adjacent the top surface. The upper portion of the containment wall has an insulating layer applied thereto. A tray for use in the ice maker and method of manufacturing the tray are also provided. | 06-19-2014 |
20150082812 | INTEGRATED ICE MAKER PUMP - A refrigerator includes a refrigerator cabinet, an ice maker disposed within the refrigerator cabinet, a pump fluidly connected to the ice maker and configured for pumping cooling media to the ice maker, and a motor operatively connected to the ice maker and configured to provide oscillating movement to the ice maker. The pump is operatively connected to the motor such that driving of the motor results in the pumping of the cooling media with the pump. | 03-26-2015 |