Patent application number | Description | Published |
20080217329 | MICROWAVE OVEN AND VENTILATION HOOD COMBINATION SYSTEM - A modular microwave oven and ventilation hood combination system, includes a core module, comprising a core module housing, and a microwave cooking chamber, fitted in said core module housing. The system further includes an intake module, comprising an intake module housing connected to a lower side of the core module housing, and an air inlet for drawing air from an area above a range. | 09-11-2008 |
20130098081 | HIGHER EFFICIENCY APPLIANCE EMPLOYING THERMAL LOAD SHIFTING IN REFRIGERATORS HAVING HORIZONTAL MULLION - An appliance includes a cabinet; a first compartment; and a second compartment. The first compartment and the second compartment are separated by a horizontal mullion. The cabinet also typically includes a coolant system that has: a single compressor for regulating a temperature of the first compartment and a temperature of the second compartment operably connected to at least one evaporator; a shared coolant fluid connection system; and a coolant fluid spaced within the shared coolant fluid connection system used to regulate both the temperature of the first compartment and the second compartment. The compressor can provide the shared coolant at at least two different pressures to at least one evaporator using the shared coolant fluid connection circuit. The ratio of the substantially steady state heat gain for the first compartment to the substantially steady state total heat gain for the overall cabinet is about 0.65:1 or greater. | 04-25-2013 |
20130098082 | HIGHER EFFICIENCY APPLIANCE EMPLOYING THERMAL LOAD SHIFTING IN REFRIGERATORS HAVING VERTICAL MULLION - An appliance includes a cabinet; a first compartment; and a second compartment. The first compartment and the second compartment are separated by a vertical mullion. The cabinet also typically includes a coolant system that has: a single compressor for regulating a temperature of the first compartment and a temperature of the second compartment operably connected to at least one evaporator; a shared coolant fluid connection system; and a coolant fluid spaced within the shared coolant fluid connection system used to regulate both the temperature of the first compartment and the second compartment. The compressor can provide the shared coolant at at least two different pressures to at least one evaporator using the shared coolant fluid connection circuit. The ratio of the substantially steady state heat gain for the first compartment to the substantially steady state total heat gain for the overall cabinet is about 0.65:1 or greater. | 04-25-2013 |
20130213064 | REFRIGERATOR WITH VARIABLE CAPACITY COMPRESSOR AND CYCLE PRIMING ACTION THROUGH CAPACITY CONTROL AND ASSOCIATED METHODS - A refrigerator appliance (and associated method) that includes a condenser, evaporator and a multi-capacity compressor. The appliance also includes a pressure reducing device arranged within an evaporator-condenser refrigerant circuit, and a valve system for directing or restricting refrigerant flow through the device. The appliance further includes a controller for operating the compressor upon the initiation of a compressor ON-cycle at a priming capacity above a nominal capacity for a predetermined or calculated duration. | 08-22-2013 |
20130213065 | DUAL CAPILLARY TUBE / HEAT EXCHANGER IN COMBINATION WITH CYCLE PRIMING FOR REDUCING CHARGE MIGRATION - A refrigerator appliance including a multi-capacity compressor and a refrigerant circuit with two conduits and pressure reducing devices arranged in parallel between an evaporator and a condenser. Refrigerant can flow through one, both or none of the conduits and pressure reducing devices. The appliance also has a heat exchanger in contact with either one pressure reducing device, or one conduit between the pressure reducing device and the valve system. The appliance also includes a controller for priming the compressor above a nominal capacity for a predetermined or calculated duration at the beginning of an ON-cycle. | 08-22-2013 |
20130213066 | REFRIGERATION ARRANGEMENT AND METHODS FOR REDUCING CHARGE MIGRATION - A refrigerator appliance including a refrigerant circuit between a condenser, an evaporator, and a compressor that includes two conduits and pressure reducing devices arranged in parallel between the evaporator and the condenser. The appliance also includes a valve system to direct refrigerant through one, both or none of the conduits and pressure reducing devices, and a heat exchanging member in thermal contact with either one pressure reducing device, or one conduit between the pressure reducing device and the valve system. | 08-22-2013 |
20130305751 | SYNCHRONOUS TEMPERATURE RATE CONTROL FOR REFRIGERATION WITH REDUCED ENERGY CONSUMPTION - Methods of operation for refrigerator appliance configurations with a controller, a condenser, at least one evaporator, a compressor, and two refrigeration compartments. The configuration may be equipped with a variable-speed or variable-capacity compressor, variable speed evaporator or compartment fans, a damper, and/or a dual-temperature evaporator with a valve system to control flow of refrigerant through one or more pressure reduction devices. The methods may include synchronizing alternating cycles of cooling each compartment to a temperature approximately equal to the compartment set point temperature by operation of the compressor, fans, damper and/or valve system. The methods may also include controlling the cooling rate in one or both compartments. Refrigeration compartment cooling may begin at an interval before or after when the freezer compartment reaches its lower threshold temperature. Freezer compartment cooling may begin at an interval before or after when the freezer compartment reaches its upper threshold temperature. | 11-21-2013 |
20130305755 | SYNCHRONOUS COMPARTMENT TEMPERATURE CONTROL AND APPARATUS FOR REFRIGERATION WITH REDUCED ENERGY CONSUMPTION - A refrigerator appliance configuration, and associated methods of operation, for an appliance with a controller, a condenser, at least one evaporator, a compressor, and two refrigeration compartments. The configuration may be equipped with a variable-speed or variable-capacity compressor, variable speed evaporator or compartment fans, a damper and/or a dual-temperature evaporator with a valve system to control flow of refrigerant through one or more pressure reduction devices. The controller, by operation of the compressor, fans, damper and/or valve system, depending on the appliance configuration, controls the cooling rate in one or both compartments to synchronize, alternating cycles of cooling the compartments to their set point temperatures. Refrigeration compartment cooling begins at an interval before or after when the temperature in the freezer compartment reaches its lower threshold temperature; and freezer compartment cooling begins at an interval before or after when the temperature in the freezer compartment reaches its upper threshold temperature. | 11-21-2013 |
20130305756 | SYNCHRONOUS TEMPERATURE RATE CONTROL AND APPARATUS FOR REFRIGERATION WITH REDUCED ENERGY CONSUMPTION - A refrigerator appliance configuration, and associated methods of operation, for an appliance with a controller, a condenser, at least one evaporator, a compressor, and two refrigeration compartments. The configuration may be equipped with a variable-speed or variable-capacity compressor, variable speed evaporator or compartment fans, a damper, and/or a dual-temperature evaporator with a valve system to control flow of refrigerant through one or more pressure reduction devices. The controller, by operation of the compressor, fans, damper and/or valve system, depending on the appliance configuration, synchronizes alternating cycles of cooling each compartment to a temperature approximately equal to the compartment set point temperature. | 11-21-2013 |
20130305765 | FLAT TOP MODULAR COOLING SYSTEM ICE AND AIR DELIVERY - A refrigerator includes a cabinet having at least one door. A removable cooling module is coupled with an outer periphery of the cabinet. The removable cooling module includes an ice maker. A duct is in communication with the removable cooling module. Ice is produced by the ice maker and transferred through the duct to the refrigerator. | 11-21-2013 |
20130305768 | TOP COOLING MODULE FOR A REFRIGERATOR - A refrigerator includes a cabinet having a top wall. At least one door is coupled with the cabinet and is moveable between an open position and a closed position. A removable cooling module is disposed on the top wall of the refrigerator. The removable cooling module includes a cooling unit and an ice maker. An ice dispenser is coupled with the refrigerator. A duct is in communication with the removable cooling module and is adapted to convey ice and cool air from the removable cooling module to the refrigerator. | 11-21-2013 |
20130305769 | TOP COOLING MODULE WITH ICE STORAGE AND DELIVERY - A removable cooling module for a refrigerator includes a cooling unit positioned in a housing and removably coupled with a top wall of the refrigerator. An ice maker is coupled to the cooling unit. An ice bin is disposed in the housing and is adapted to receive and store ice from the ice maker. A duct is in communication with the cooling unit and is adapted to convey ice from the removable cooling module to an ice dispenser. | 11-21-2013 |
20130305770 | ICE DELIVERY METHOD FOR MODULAR COOLING SYSTEM - A refrigerator includes a removable cooling module that defines a cavity. The removable cooling module includes a cooling unit and an ice maker disposed in the cavity. A duct is disposed inside the refrigerator and is in communication with the removable cooling module. The duct is adapted to convey cool air and ice from the ice maker to an ice storage bin in the refrigerator. An ice deflector is disposed in the duct. The ice deflector directs ice to the ice storage bin and directs cool air to a food storage area in the refrigerator. | 11-21-2013 |
20130340450 | ON-LINE ENERGY CONSUMPTION OPTIMIZATION ADAPTIVE TO ENVIRONMENTAL CONDITION - An appliance includes an appliance housing, an interface adapted to receive power information, a plurality of sensors for sensing environmental conditions, a plurality of controls for controlling operations of the appliance, and an intelligent control. The intelligent control is disposed within the appliance housing and operatively connected to the interface and the plurality of sensors and adapted to dynamically select control values associated with the plurality of controls based on at least one of the power information, the environmental conditions, or a combination thereof to increase energy efficiency of the appliance. | 12-26-2013 |
20130340457 | FAULT DETECTION AND DIAGNOSIS FOR REFRIGERATOR FROM COMPRESSOR SENSOR - A refrigerator, a sealed refrigerant system, and method are provided where the refrigerator includes at least a refrigerated compartment and a sealed refrigerant system including an evaporator, a compressor, a condenser, a controller, an evaporator fan, and a condenser fan. The method includes monitoring a frequency of the compressor, and identifying a fault condition in the at least one component of the refrigerant sealed system in response to the compressor frequency. The method may further comprise calculating a compressor frequency rate based upon the rate of change of the compressor frequency, wherein a fault in the condenser fan is identified if the compressor frequency rate is positive and exceeds a condenser fan fault threshold rate, and wherein a fault in the evaporator fan is identified if the compressor frequency rate is negative and exceeds an evaporator fan fault threshold rate. | 12-26-2013 |
20140056723 | REFRIGERATOR WITH ENERGY CONSUMPTION OPTIMIZATION USING ADAPTIVE FAN DELAY - A method of determining a time delay for turning off an evaporator fan in a refrigerator after a compressor of the refrigerator is turned off includes operating the evaporator fan in the refrigerator for a period of time, operating the compressor of the refrigerator to cool the refrigerator to a predetermined temperature after turning off the evaporator fan, determining a power consumption value for operating the compressor to cool the refrigerator, repeating the previous steps to obtain a plurality of times and a plurality of power consumption values, selecting the time coinciding with a lowest power consumption value, and adapting the refrigerator to use the time as the time delay for turning off the evaporator fan in the refrigerator after the compressor of the refrigerator is turned off. | 02-27-2014 |
20140202187 | HIGHER EFICIENCY APPLIANCE EMPLOYING THERMAL LOAD SHIFTING IN REFRIGERATORS HAVING HORIZONTAL MULLION - An appliance includes a cabinet; a first compartment; and a second compartment. The first compartment and the second compartment are separated by a horizontal mullion. The cabinet also typically includes a coolant system that has: a single compressor for regulating a temperature of the first compartment and a temperature of the second compartment operably connected to at least one evaporator; a shared coolant fluid connection system; and a coolant fluid spaced within the shared coolant fluid connection system used to regulate both the temperature of the first compartment and the second compartment. The compressor can provide the shared coolant at least two different pressures to at least one evaporator using the shared coolant fluid connection circuit. The ratio of the substantially steady state heat gain for the first compartment to the substantially steady state total heat gain for the overall cabinet is about 0.65:1 or greater. | 07-24-2014 |
20140216095 | IN-THE-DOOR COMPACT COOLING SYSTEM FOR DOMESTIC REFRIGERATORS - A refrigerator includes a cabinet defining a refrigerator compartment and a freezer compartment. A refrigerator door is operably coupled with the cabinet proximate the refrigerator compartment. A freezer door is operably coupled with the cabinet proximate the refrigerator compartment. A first cooling system is disposed in the refrigerator door. The first cooling system maintains a temperature of the refrigerator compartment at a first temperature. A second cooling system is disposed in the freezer door. The second cooling system maintains the freezer compartment at a second temperature that is different than the first temperature. | 08-07-2014 |
20140216096 | IN-THE-DOOR COOLING SYSTEM FOR DOMESTIC REFRIGERATORS - A refrigerator includes a cabinet defining a refrigerator compartment and a freezer compartment. A door is pivotally coupled with the cabinet. A cooling system is disposed solely in the door and is in fluid communication with the refrigerator compartment and the freezer compartment. The cooling system maintains a temperature of the refrigerator compartment at a different temperature than the freezer compartment. | 08-07-2014 |
20140216097 | IN-THE-DOOR COMPACT COOLING SYSTEM FOR DOMESTIC REFRIGERATORS - A refrigerator includes a cabinet defining a refrigerator compartment and a freezer compartment. A door is coupled with the cabinet. A cooling system is disposed in the door and is in fluid communication with the refrigerator compartment and the freezer compartment. A dividing wall is removably coupled with the cabinet and extends between the refrigerator compartment and the freezer compartment. The dividing wall is relocatable within the cabinet to change a relative volume of the refrigerator compartment and the freezer compartment. | 08-07-2014 |